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ORDINANCE NO.
AN ORDINANCE of the City of Kent,
Washington, adopting that certain code known
as State Energy Code, together with certain
additions thereto and providing penalties for
violations.
THE CITY COUNCIL OF THE CITY OF KENT, WASHINGTON, DO
HEREBY ORDAIN AS FOLLOWS:
'Section 1. There is hereby adopted by reference upon
the effective date of this Ordinance and upon the filing of three
copies thereof with the Kent City Clerk, that certain code known
as the State Energy Code with the following additions:
a) All construction calculations shall conform to the
heating degree days and design - outdoor tempera-
tures of climatic zone number one.
b) Any insulation intended to be left exposed shall
be labled as certified and tested for flame spread
rating of 25 or less and will not otherwise con-
tribute as fuel to a fire.
c) Where crawl space insulation is required in cli-
matic zone number one it shall be placed under the
floor and not against a foundation wall due to
potential moisture problems.
d) Insulation to be installed after issuance of cer-
tificate of occupancy will be bonded prior to is-
suance of the certificate, said bonding to be good
for no more than one year after issuance of the
certificate. This will apply if insulation is re-
quired by the Code or if insulation is shown on
the drawings approved by the building department.
All bonds shall be made payable to the City of
Kent. Bonds shall be posted with the City of Kent prior to is-
suance of certificate of occupancy.
Acceptable types of bonds are:
1- Cash bonds
2- Assignment of savings accounts.
3- Letters of guarantee.
The bond amount shall be based on fifty cents per
square foot of horizontal or vertical area to be insulated.
All insulation required by the Code or shown on
approved drawings issued by the Building Department must be in-
stalled and inspected within twelve (12) months after issuance of
the certificate of occupancy.
Section 2. PENALTIES. Any person, firm or corporation
violating any of the provisions of this Code shall be deemed guil-
ty of a misdemeanor and subject to a fine of not more than two
hundred fifty (250) dollars and each day or portion thereof during
which any violation of the provisions of this Code is committed
shall be deemed to be a separate offense.
Section 3. This Ordinance shall take effect and be
in force five (5) days from and after its passage, approval and
publication as provided by law.
ATTEST:
MARIE JENS CITY CLERK
PROVED AS TO FORM:
PASSED the day of August, 1981.
APPROVED the '". day of August, 1981.
PUBLISHED the day of August, 1981.
I hereby certify that this is a true copy of Ordinance
No. r� passed by the City Council of the City of Kent,
1 .
Washington, and approved by the Mayor of the City of Kent as here-
on indicated.
(SEAL)
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Preface
This is the Washington Energy Code. It is designed to provide complete
requirements for energy efficiency of commercial and residential
buildings.
The State of Washington has agreed to comply with the requirements of
the State Energy Conservation Program as enacted in the federal Energy
Policy and Conservation Act. Specifically, the State of Washington has
agreed to implement thermal and lighting efficiency standards no less
stringent than the ASHRAE 90-75 standards.
To comply with this requirement, the 1979 Legislature required the State
Building Code Advisory Council (SBCAC) to adopt standards equivalent to
ASHRAE 90-75 that would be in place by June 30, 1980.
The State Building Code Advisory Council and its Energy Code Committee
solicited input and developed drafts for comment. In addition, a
technical review panel was established to review the proposed draft of
the code. While the technical review panel reviewed the code, the
Building Code Advisory Council held a series of public hearings on the
final draft code. The SBCAC formally adopted the energy code at a
meeting on May 12, 1980.
i
WASHINGTON STATE ENERGY CODE
Table of Contents
CHAPTER
TITLE
PAGE
1,
ADMINISTRATION
AND ENFORCEMENT ...............................
1
100
Title ...................................................
1
1
101
Intent ...................................................
1
102
Scope ..................................................
(a) Exempt Buildings
(b) Applications to Existing Buildings
103
State Building Code -- .........................•••••
2
2
104
Materials and Equipment .................................
(a) Identification
(b) Maintenance Information
105
Alternate Materials - Method of Construction...
...........
2
106
Plans and Specifications ................................
2
107
Inspections and Enforcement ..............................
3
,.,'.
108
Validity ................................................
3
3
�w
109
Violations ...
3
110
Liability.... ............................................
4
111
Annual Review ............................................
2.
DEFINITIONS ..................................................
5
�a
3.
DESIGN REQUIREMENTS .......................................
12
:v=
300
General ..................................................
12
12
301
Buildings Heated and Cooled ..............................
302
Climatic Zones ...........................................
12
12
r`
303
Departure from Criteria ..................................
12
304
Design Parameters ..................... .................
13
1.,
305
Ventilation ..............................................
13
306
Methods of Compliance ..............................
Figure 3-1 Climatic Zones. ............................
14
}
4.
DESIGN
BY COMPONENT PERFORMANCE APPROACH .....................
15
400
General. .......................................
15
401
.........................................................15
15
15
402
Overall Thermal Performance ..............................
(a) Stated Uo Value
(b) Return Air Ceiling Plenums
(c) Exemption for Passive Solar Features
403
Thermal Performance Criteria for Low -Rise
Residential...
16
�7
(a) Overall Average Thermal Transmittance
(b) Floors Over Unheated Spaces
(c) Slab on Grade Floor
(d) Windows and Doors
17
404
Thermal Performance Criteria for Other Occupancies.......
(a) Heating Criteria
(b) Cooling Criteria
405 Air Leakage
20
..............................................
(a) Openings in Building Envelope
(b) Exterior Doors
(c) Exterior Windows
(d) Fire Doors, Exemption
i
CHAPTER TITLE
PAGE
406 Building Mechanical Systems ................................
20 •
21
407 Calculations of Heating and Cooling Loads...... .............
21
408 Infiltration ...............................................
21
409 Simultaneous Heating and Cooling ...........................
(a) Recovered and Non-Depletable Energy
(b) New Energy
(c) Reheat Systems
(d) Dual Duct and Multi -zone Ssytems
(e) Recooling Systems
(f) Multiple Zone HVAC Systems, Exemption
(g) Concurrent Operation
22
410 Energy Recovery ............................................
22
411 HVAC Equipment Performance Requirements ....................
(a) Application
(b) Heat Pumps
(c) Combustion Heating Equipment
(d) Mechanical Ventilation
(e) HVAC Electric, Mode
HVAC Systems,
Applied stems, Electric, Cooling Mode
(f) App Y
(g) Heat Operated Cooling Equipment
(h) Fireplaces
25
412 Energy for Air Delivery ........................... .......
25
413 Balancing ..................................................
414 Cooling with Outside Air (Economizer Cycle) ................
25
Exceptions:
(a) Fan System Capacity
•
W Outdoor Air Quality
(c) Humidification and Dehumidification
(d) Overall Energy Consumption
(e) Recovery Systems
(f) Circulating Liquid Systems.
26
415 Controls ...................................................
(a) Temperature Control
(b) Humidity Control
(c) Zoning for Temperature Control
27
416 Air Handling Duct System Insulation ...............
Exceptions:
(a) Supply or Return Air Ducts
(b) Duct Heat Gain and Loss
(c) Within HVAC Equipment
(d) Exhaust Air Ducts
28
417 Duct Construction ..........................................
28
418 Piping Insulation ..........................................
(a) Other Insulation Thickness
(b) Exceptions
(c) Vapor Barriers
28
419 Service Water Heating ......................................
(a) General
(b) Scope
420 Water Heaters, Storage Tanks, Boilers, & Piping...........
29
_ (a) Performance Efficiency
•
(b) Temperature Controls ••....
30
„
421 Pump Operation ..................................•.........
30
422 Pipe Insulation ..................................
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CHAPTER TITLE PAGE
423
424
425
426
Conservation of Hot Water ..............................
(a) Showers
(b) Lavatories, Public Restrooms
Electrical Power and Lighting ..........................
Electrical Distribution ................................
(a) Lighting Switching
(b) General Lighting Controls
PBud et .....................
L1-j 6 "g ower g ........... .
(a) Installed Lighting Wattage Limit
(b) Interior Lighting Budget Calculation
(c) Exterior Lighting Budget Calculation
(d) Exempt Applications
Tables 4-1 and 4-2 .....................................
Tables4-3 and 4-4 .....................................
Tables 4-5 and 4-6 .....................................
Tables 4-7 and 4-8 .....................................
Tables 4-9 and 4-10 ....................................
Tables 4-11 and 4-12 ...................................
Tables 4-13 through 4-15 ...............................
Table4-16 .............................................
Tables 4-17 and 4-18 ...................................
5. BUILDING DESIGN BY SYSTEMS ANALYSIS .........................
500 General ................................................
501 Energy Analysis ........................................
502 Design .................................................
503 Analysis Procedure .....................................
(a) Heating/Cooling Load Calculation
(b) One -Year Simulation
(c) Energy Output, Alternative Designs
(d) Energy Use Calculation per System
504 Calculation Procedure ..................................
(a) Design Requirements
(b) Climatic Data
(c) Building Data
(d) Operational Characteristics
(e) Mechanical Equipment
(f) Building Loads
505 Documentation ..........................................
506 Buildings Utilizing Non-Depletable Energy ..............
(a) Code Requirements
(b) Qualify for Exclusion
(c) Passive Cooling Processes
(d) Other Criteria
507 Documentation of Buildings Utilizing Non-Depletable
Energy Sources .........................................
6. PRESCRIPTIVE REQUIREMENTS APPROACH .........................
600 General
(a) Design Criteria Established
(b) Applications
(c) Insulation "R" Values
lie
i i i
30
30
30
30
33
34
35
36
37
38
39
40
41
42
42
42
42
42
43
44
44
44
45
CHAPTER
TITLE
PAGE
601 Building Envelope Requirements ...........................
45
(a) Walls
(b) Roof/Ceiling
(c) Floors
(d) Openings
(e) Air Leakage
(f) Vapor Barriers
(g) General Insulation Requirements
602 Building Mechanical Systems - General ....................
47
(a) Heating and Mechanical Cooling
(b) Temperature Control
(c) Zoning for Temperature Control
603 Service Water Heating ....................................
49
(a) Temperature Controls
(b) Swimming Pools
(c) Pump Operation
(d) Insulation
(e) Showers
(f) Water Heaters
604 Electric Power and Lighting...... .........................
50
Table6-1 ................................................
51
Table6-2 ................................................
52
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Chapter 1
ADMINISTRATION AND ENFORCEMENT
Scope and General Requirements
Section 100. Title. This Code shall be known as the "State
Energy Code" and may be cited as such; and will be referred to herein as
"this Code".
Section 101. Intent. The purpose of this Code is to provide
minimum standards for new buildings and structures or portions thereof
to achieve efficient use of energy.
It is intended that these provisions provide flexibility to permit
the use of innovative approaches and techniques to achieve effective
utilization of energy. These provisions are structured to permit com-
pliance with the intent of this Code by any one of the three paths of
design.
Compliance with any one of these paths meets the intent of this
Code. This Code is not intended to abridge any safety or health require-
ments required under any other applicable codes or ordinances.
The provisions of this Code do not consider the efficiency of
various energy forms as they are delivered to the building envelope. A
determination of delivered energy efficiencies in conjunction with this
Code will provide the most efficient use of available energy in new
building construction.
Section 102. Scope. This Code sets forth minimum requirements
for the design of new buildings and structures that provide facilities
or shelter for public assembly, educational, business, mercantile,
institutional, storage and residential occupancies, as well as those
portions of factory and industrial occupancies designed primarily for
human occupancy by regulating their exterior envelopes and the selection
of their HVAC, service water heating, electrical distribution and illumin-
ating systems and equipment for effective use of energy.
Buildings shall be designed to comply with the requirements of
either Section 4, 5, or 6 of this Code.
(a) Exempt Buildings
1. Buildings and structures or portions thereof whose peak
design rate of energy usage is less than three and four
tenths (3.4) BTU/h per square foot or one point zero
(1.0) watt per square foot of floor area for all purposes.
2. Buildings and structures or portions thereof which are
neither heated nor cooled by fuel or electricity.
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(b) Application to Existing Buildings
1. Additions to Existing Buildings. Additions to existing
buildings or structures may be made to such buildings or
structures without making the entire building or structure
comply. Existing buildings that are substantially re-
modeled or rehabilitated (see definitions) shall conform
to the provisions of this Code.
2. Historic Buildings. Historic buildings are exempt from
this Code. This exemption shall apply to those buildings
which have been specifically designated as historically
significant by the state or local governing body, or
listed in "The National Register of Historic Places" or
which have been determined to be eligible for listing.
Section 103. In addition to the requirement of this Code, buildings
must conform to the provisions included in the State Building Code (RCW
19.27). In case of conflicts under the Uniform Building, Plumbing, or
Mechanical Code; the provisions of this Code shall govern.
Section 104. Materials and Equipment,
(a) Identification. All materials and equipment shall be identified
in order to show compliance with this Code.
(b) Maintenance Information. Required regular maintenance actions
shall be clearly stated and incorporated on a readily accessible
label. Such label may be limited to identifying, by title or
publication number, the operation and maintenance manual for
that particular model and type of product. Maintenance in-
structions shall be furnished for any equipment which requires
preventive maintenance for efficient operation.
Section 105. Alternate Materials - Method of Construction, Design
or Insulating Systems. The provisions of this Code are not intended to
prevent the use of any material, method of construction, design or
insulating system not sepcifically prescribed herein, provided that such
construction, design or insulating system has been approved by the
Building Official as meeting the intent of the Code.
The Building Official may require that sufficient evidence or proof
be submitted to substantiate any claims that may be made regarding
performance capabilities.
Section 106. Plans and Specifications .
(a) General. With each application for a building permit, and
when required by the Building Official, plans and specifications
shall be submitted. The Building Official may require plans
and specifications be prepared by an engineer or architect
licensed to practice by the State. All designs submitted
under the provisions of Section 5 shall be prepared by an
engineer or architect licensed to practice by the state. •1
All plans and specifications, together with supporting data,
shall be submitted to the Building Official prior to issuance
of a building permit.
(b) Details. The plans and specifications shall show in sufficient
detail all pertinent data and features of the building and the
equipment and systems as herein governed including, but not
limited to: design criteria, exterior envelope component
materials, U values of the envelope systems, R values of
insulating materials, size and type of apparatus and equip-
ment, equipment and systems controls and other pertinent data
to indicate conformance with the requirements of the Code.
(c) The Building Official may accept the professional stamp of an
architect or engineer licensed to do business in the state in
lieu of a plan and specification check if the engineer or architect
stipulates to the best of his knowledge, understanding, and belief,
the design meets the requirements of this Code.
Section 107. Inspections and Enforcement.
(a) General. All construction or work for which a permit is
required shall be subject to inspection by the Building
Official.
(b) Authority. The Building Official is authorized and directed
to enforce this Code. The Building Official is authorized to
promulgate, adopt, and issue those rules and regulations
necessary to the effective and efficient administration of
this Code.
(c) Inspections. All buildings constructed under the provisions
of this Code are subject to a final inspection for compliance
with this Code. The Building Official has the authority to
establish procedures for accepting substantial compliance with
this Code in lieu of a final inspection.
Section 108. Validity. If any section, subsection, sentence,
clause, or phrase of this Code is, for any reason, held to be uncon-
stitutional, such decision shall not affect the validity of the remaining
portions of this Code.
Section 109. Violations. It shall be unlawful for any person,
firm, or corporation to erect or construct any building, or substantially
remodel or rehabilitate any existing building or structure in the
state, or allow the same to be done, contrary to or in violation of any
of the provisions of this Code.
Section 110. Liability. Nothing contained in this Code is
intended to be nor shall be construed to create or form the basis for
any liability on the part of any city or county or its officers, employees
or agents, for any injury or damage resulting from the failure of a
building to conform to the provisions of this Code.
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Section 111. Annual Review. The State Building Code Advisory
Council hereby intends to conduct an annual review of these energy code
requirements and to make such changes and improvements as are deemed
appropriate. (RCW 34.04.; The Council recognizes the authority of
the Washington State Legislature to revoke this rule-making authority
in any future session.
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Chapter 2
DEFINITIONS
Section 200 General For the purpose of this amendatory act,
certain abbreviations, terms, phrases, words and their derivatives shall
be construed as specified in this section. Words used in the singular
include the plural and the plural the singular. Words used in the
masculine gender include the feminine and the feminine the masculine.
Section 201 A
ACCESSIBLE (as applied to Equipment). Allowing close approach, not
guarded by locked doors, elevation or other effective means. (See
READILY ACCESSIBLE.)
AIR CONDITIONING. The process of treating air .so as to control
simultaneously its temperature, humidity, cleanliness and distribution
to meet requirements of the conditioned space.
AIR TRANSPORT FACTOR. The ratio of the rate of useful sensible
heat removal from the conditioned space to the energy input to the
supply and return fan motor(s), expressed in consistent units and under
the designated operating conditions.
ASHRAE. American Society of Heating, Refrigeration, and Air
Conditioning Engineers, Inc.
AUTOMATIC. Self-acting, operating by its own mechanism when
actuated by some impersonal influence, as for example, a change in
current strength, pressure, temperature or mechanical configuration.
Section 202 B.
BOILER CAPACITY. The rate of heat output in BTU/h measured at the
boiler outlet at the design pressure and/or temperature and rated fuel
input.
BUILDING ENVELOPE. The elements of a building which enclose
conditioned spaces through which thermal energy may be transferred to or
from the exterior.
BUILDING OFFICIAL. The officer or other designated authority
charged with the administration and enforcement of this Code, or his
duly authorized representative.
Section 203 C
CLERESTORY. A window placed high in a wall or projecting from a
roof plane, to admit daylight into the interior of a building.
COEFFICIENT OF PERFORMANCE (COP). See Section 411 for various
definitions of COP.
5
CONDITIONED SPACE. Any horizontal or vertical projection or any
combination of that portion of interior space which is contained within
exterior walls and which is heated or cooled directly or indirectly
by an energy -using system.
Section 204 D
DEGREE DAY, HEATING. A unit, based upon temperature difference
and time, used in estimating fuel consumption and specifying nominal
heating load of a building in winter. For any one day, when the mean
temperature is less than 65°F there exist as many Degree Days as there
are Fahrenheit degrees difference in temperature between the mean tem-
perature for the day and 65°F.
Section 205 E
ECONOMIZER CYCLE. A control sequence of a fan system that modulates
the amount of outside air for the purpose of space cooling without using
mechanical cooling.
EFFICIENCY, OVERALL SYSTEM. The ratio of the useful energy (at
the point of use).to the thermal energy input for a designated time
period, expressed in percent.
ENERGY. The capacity for doing work, taking a number of forms
which may be transformed from one into another, such as thermal (heat),
mechanical (work), electrical; in customary units, measured in kilowatt-
hours (kwh) or British Thermal Units (BTU).
ENERGY EFFICIENCY RATIO (EER). The ratio of net cooling capacity
in BTU/h to total rate of electric input in watts under designated
operating conditions. When International System of units are used this
becomes equal to COP. (See COP).
ENERGY, NEW. (See NEW ENERGY).
ENERGY, RECOVERED. (See RECOVERED ENERGY).
EXFILTRATION. The uncontrolled outward air leakage through cracks
and interstices in any building element such as around soleplates, wall
outlets, duct systems, windows and doors of a building, caused by the
pressure effects of wind and/or the effect of differences in the indoor
and outdoor air density.
EXTERIOR ENVELOPE. (See BUILDING ENVELOPE).
Section 206 F
FENESTRATION. Any light -transmitting opening in a building envelope,
including glazing, interior and exterior shading devices, and integral
sun control devices.
Section 207 G
GENERAL LIGHTING. Lighting designed to provide an approximately
uniform level of illumination in an area.
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GLAZING, SPECIAL. (See SPECIAL GLAZING).
GROSS FLOOR AREA. The sum of the areas of the floors of the
building, including basements, mezzanine and intermediate -floored tiers
and penthouses of headroom height, measured from the exterior faces of
exterior walls or from the centerline of walls separating buildings;
Provided:
Covered walkways, open roofed -over areas, porches and
similar spaces and features such as pipe trenches, exterior
terraces or steps, chimneys, roof overhangs, etc., shall be
excluded.
GROSS WALL AREA. The vertical projection of the exterior wall
area bounding interior space which is conditioned by an energy -using
system; includes opaque wall, window, clerestory, and door areas. The
gross area of exterior walls consists of all opaque wall areas, in-
cluding foundation walls above and below grade, between floor spandrels,
peripheral edges of floors, window areas including sash, and door areas,
where such surfaces are exposed to outdoor air and enclose a heated or
mechanically cooled space including interstitial areas between two such
spaces.
Section 208 H
HEAT. The form of energy that is transferred by virtue of a
temperature difference.
HEAT STORAGE CAPACITY. The ability of mass to absorb heat during
overheated periods and store it for release during underheated periods,
as calculated in Sec. 403 (b) 6.
HEATED SLAB. A slab on grade containing heated pipes, ducts, or
electric heating cables that constitute a radiant slab or portion thereof
for complete or partial heating of the structure.
HEATED SPACE. Space, within a building, which is provided with a
positive heat supply to maintain air temperature of 50°F (10°C)_ or higher
or as set.
HUMIDISTAT. An instrument which measures changes in humidity and
controls a device(s) for maintaining a desired humidity.
HVAC. Heating, ventilating and air conditioning.
HVAC SYSTEM. A system that provides either collectively or
individually the processes of comfort heating, ventilating, and/or air
conditioning within or associated with a building.
Section 209 I
INFILTRATION. The uncontrolled inward air leakage through cracks
ih and interstices in any building element and around soleplates, wall
outlets, duct systems, windows and doors of a building, caused by the
pressure effects of wind and/or the effect of differences in the indoor
and outdoor air density.
7
Section 210 J (Reserved)
Section 211 K (Reserved)
Section 212 L (Reserved)
Section 213 M
MANUAL. Capable of being operated by personal intervention.
Section 214 N
NEW ENERGY. Energy, other than recovered energy, utilized for the
purpose of heating or cooling.
NON-DEPLETABLE ENERGY SOURCES. Sources of energy (excluding
minerals) derived from: (1) incoming solar radiation, including, but
not limited to, natural daylighting and photosynthetic processes, (2)
energy sources resulting from wind, waves and tides, lake or pond thermal
differences; and (3) energy derived from the internal heat of the earth,
including nocturnal thermal exchanges. Neither natural gas, oil, coal,
liquified petroleum gas, nor any utility -supplied electricity shall be
considered a non-depletable energy source.
Section 215 0
OCCUPANCY: (See UBC definition)
OPAQUE AREAS. All areas of a building envelope which enclose
conditioned space, except openings for windows, skylights, doors and
building service systems. -
OUTSIDE AIR. Air taken from the outdoors and, therefore, not
previously circulated through the HVAC system of a building or structure.
OVERALL SYSTEM EFFICIENCY. (See EFFICIENCY, OVERALL SYSTEM).
OVERALL THERMAL TRANSFER VALUE (OTTV). An overall coefficient of
heat gain expressed in units of BTU per hour per square foot.
Section 216 P
PACKAGED TERMINAL AIR -CONDITIONER. A factory -assembled combination
of heating and cooling components, assemblies or sections, intended to
serve a room or a zone.
PASSIVE COOLING. Cooling, humidification, and/or dehumidification
of a conditioned space using minimal mechanical assistance.
POSITIVE HEAT SUPPLY. Heat supplied to a space by design or by
heat losses occurring from energy -consuming systems or components
associated with that space.
POWER. In connection with machines, the time rate of doing work.
In connection with the transmission of energy of all types, the rate at
which energy is transmitted; in customary units, it is measured in
watts (w) or British Thermal Units per hour (BTU/h).
ROOF ELEMENT, GROSS AREA OF. The gross area of a roof element
consists of the total interior surface of such element, including sky-
lights, excluding clerestories, exposed to the heated or mechanically
cooled space.
ROOM AIR CONDITIONER. An encased assembly designed as a unit
primarily for mounting in a window or through a wall, or as a console.
It is designed primarily to provide free delivery of conditioned air to
an enclosed space, room or zone. It includes a prime source of refrig-
eration for cooling and dehumidification and means for circulating and
cleaning air, and may include means for ventilating and heating.
Section 219. S
SEQUENCE. A consecutive series of operations.
9
Section 217 Q (Reserved)
Section 218 R
READILY ACCESSIBLE. Capable of being reached quickly for operation,
renewal, or inspections, without requiring those to whom ready access is
to
requisite to climb over or remove obstacles or to resort portable
ladders, chairs, etc. (See ACCESSIBLE.)
RECOMMEND. Suggest as appropriate; not required.
RECOVERED ENERGY. Energy utilized which would otherwise be
wasted from an energy utilization system.
REGISTERED ENGINEER. A professional engineer licensed to practice
in the state of Washington and knowledgeable and skilled in the use of
the methods and practices associated with the specific engineering
discipline being practiced.
REHEAT. The application of sensible heat to supply air that has
been previously cooled below the temperature of the conditioned space by
either mechanical refrigeration or the introduction of outdoor air to
provide cooling.
RESTAURANT. A building or portion of a building principally used
for the retail preparation and service of food or beverages.
ROOF ELEMENT. A roof element shall be considered as a component
of the roof/ceiling envelope, excluding clerestories, through which heat
flows, thereby creating a building transmission heat loss or gain, where
such assembly is exposed to outdoor air and encloses a heated or mechan-
w
ically cooled space.
ROOF ELEMENT, GROSS AREA OF. The gross area of a roof element
consists of the total interior surface of such element, including sky-
lights, excluding clerestories, exposed to the heated or mechanically
cooled space.
ROOM AIR CONDITIONER. An encased assembly designed as a unit
primarily for mounting in a window or through a wall, or as a console.
It is designed primarily to provide free delivery of conditioned air to
an enclosed space, room or zone. It includes a prime source of refrig-
eration for cooling and dehumidification and means for circulating and
cleaning air, and may include means for ventilating and heating.
Section 219. S
SEQUENCE. A consecutive series of operations.
9
SERVICE SYSTEMS. All energy -using systems in a building that are
operated to provide services for the occupants or processes housed
therein, including HVAC, service water heating, illumination, trans-
portation, cooking or food preparation, laundering or similar functions.
SERVICE WATER HEATING. Supply of hot water for domestic or commercial
purposes other than comfort heating.
SERVICE WATER HEATING DEMAND. The maximum design rate of energy
withdrawal from a service water heating system in a designated period of
time (usually an hour or a day).
SHADING COEFFICIENT (SC). The ratio of the solar heat gain through
a glazing system to that of an unshaded single -pane of 1/8 inch float win-
dow glass under the same set of conditions.
SC = Solar Heat Gain of Fenestration
Solar Heat Gain of 1/8 inch float
SHALL. Where shall is used in specific provision, that provision
pis mandatory.
SHOULD. Not mandatory but desirable as good practice.
SKYLIGHT. A clear or translucent panel or slope set in the plane
of a roof to admit daylight into the interior of a building.
SLAB Ofd GRADE (in a heated space). Any portion of a slab poured
in contact with the ground where the top of the finished slab is less
than 12 inches below the final elevation of the nearest exterior grade.
SOLAR ENERGY SOURCE. Source of thermal, chemical or electrical
energy derived directly from conversion of incident solar radiation.
SPECIAL GLAZING. Glazing which has a maximum "U" value of 0.65.
Insulating glass with at least 1/4 inch air space or approved storm sash
will be considered to provide the "U" value required.
SUBSTANTIALLY REMODELED OR REHABILITATED. Any alteration or
restoration of a building or structure within any 12 month period, the
cost of which exceeds 60 percent of the current replacement value of the
particular building or structure.
SYSTEM. A combination of equipment and/or controls, accessories,
interconnecting means, and terminal elements by which energy is transformed
so as to perform a specific function, such as HVAC, service water heating
or illumination.
Section 220 T
TERMINAL ELEMENT. The means by which the transformed energy from
a system is finally delivered; i.e., registers, diffusers, lighting
fixtures, faucets, etc.
10
THERMAL RESISTANCE (R). The resistance of a material to heat
flow, measured as the inverse of heat flow per unit area, per unit time,
per unit temperature difference across the thickness of material considered.
In this Code, R has units of sq ft hr °F/BTU.
THERMAL TRANSMITTANCE (U). Overall coefficient of heat trans-
mission (air to air) expressed in units of BTU per hour per square foot
per degree F. It is the time rate of heat flow. The U value applies to
combinations of different materials used in series along the heat flow
path, single materials that comprise a building section, cavity air
spaces, and surface air films on both sides of a building element.
THERMAL TRANSMITTANCE (Uo).. Overall (average) heat transmission
of a gross area of the exterior building envelope, expressed in units of
BTU per hour, per degree F per square foot of exterior building envelope.
The Uo value applies to the combined effect of the time rate of
heat flows through the various parallel paths, such as windows, doors,
and opaque construction areas, comprising the gross area of one or more
exterior building components such as walls, floors, or roof/ceiling.
THERMOSTAT.. An instrument which measures changes in temperature
and controls devi.ce(s) for maintaining a desired temperature.
Section. 221 U
U VALUE. See THERMAL TRANSMITTANCE.
UNITARY COOLING AND HEATING EQUIPMENT. One or more factory -made
assemblies which may include an evaporator or cooling coil, a compressor
and condenser combination, and may include a heating function as well.
Where such equipment is provided in more than one assembly, the separate
assemblies shall be designed to be used together.
UNITARY HEAT PUMP. One or more factory -made assemblies which
normally include an indoor conditioning coil, compressor(s) and outdoor
coil or refrigerant -to -water heat exchanger, including means to provide
both heating and cooling functions. It is designed to provide the
functions of air -circulating, air cleaning, cooling and heating with
controlled temperature, and dehumidifying, and may optionally include
the function of humidifying. When such equipment is provided in more
than one assembly, the separate assemblies shall be designed to be used
together.
Section 222 V
VENTILATION AIR. That portion of supply air which comes from
outside (outdoors) in a controlled manner, plus any recirculated air
that has been treated to maintain the desired quality of air within a
designated space. (See ASHRAE Standard 62-73).
Section 223 W X Y Z
ZONE. A space or group of spaces within a building with heating
and/or cooling requirements sufficiently similar so that comfort conditions
can be maintained throughout by a single controlling device.
Chapter 3
DESIGN REQUIREMENTS
Section 300. General. This Chapter established design criteria
in terms of the thermal performance of the various components of a
building.
Section 301. A building designed to be both heated and cooled
shall meet the more stringent of the heating or cooling requirements
provided in this Code.
Section 302. Climatic Zones. The following shall be used for
calculations required under this Code. (See also Figure 3-1.) All
areas above 7000 degree days shall comply with Zone V.
(a) Zone I consists of the following counties: San Juan, Skagit,
Snohomish, King, Pierce, Thurston, Lewis, Skamania, Clark,
Cowlitz, Wahkiakum, Pacific, Grays Harbor, Mason, Kitsap,
Jefferson, Island and Clallam.
(b) Zone II consists of the following counties: Klickitat,
Benton, Franklin, Walla Walla, Columbia, Garfield, Asotin and
Whatcom.
*`
{c)_ Zone III consists of the following counties: Chelan, Douglas,
Grant, Kittitas and Yakima.
(d) Zone IV consists of the following counties: Lincoln, Spokane, 4P
Adams and Whitman.
(e) Zone V consists of the following counties: Okanogan, Ferry,
Stevens and Pend Oreille.
Section 303. Departure from the criteria of this chapter is
permitted if the substitute data is documented and presented to the
Building Official for his concurrence.
Section 304. Design Parameters. The following design parameters
shall be used for calculations required under this Code.
(a)_ Indoor design temperature shall be 704F for heating and 78,F
for cooling.
(b) Indoor design relative humidity for heating shall not exceed
30 percent.
(c) The heating or cooling outdoor design temperatures shall be
selected from 0.6% column for winter and 0.5% column for
summer from the Puget Sound Chapter of ASHRAE publication
"Recommended Outdoor Design Temperatures, Washington State,
ASHRAE". (See also Washington State Energy Code Manual.)
12
Section 305. Ventilation. The ventilation air quantities
for each type of occupancy shall be taken from ASHRAE Standard 62-73,
"Natural and Mechanical Ventilation". These quantities are for 100
percent outdoor air ventilating systems, but a reduction to 33 percent
of the specified values for recirculating HVAC systems is permitted.
EXCEPTIONS: If outdoor air quantities other than those specified
in ASHRAE Standard 62-73 are used or required because of special occupancy
or process requirements, source control or air contamination, or other
standards, the required outdoor quantities shall be used as the basis for
calculating the heating and cooling design loads.
Where a conflict in ventilation requirements between this Code and
the Uniform Building Code of 1979 occur, the former shall govern.
Section 306. Methods of Compliance. Buildings or structures
which are subject to this Code may satisfy their requirements either by
application of a component performance approach (Chapter 4), a system
analysis approach (Chapter 5)_, and in the case of low rise residential
buildings and other buildings and structures containing less than 5000
square feet of gross floor area, a prescriptive requirements approach
(.Chapter 6).
13
Figure 3-1
CLIMATIC ZONE MAP
Note: Climatic Zones*are based on a combination of heating degree days
and design -outdoor temperatures; therefore some local deviation may be
necessary to reflect actual conditions. The local jurisdiction may
authorize an adjacent Zone for application of energy code requirements
in areas where local design conditions and degree days justify such
a consideration. The adoption of a specific climatic zone shall be
designated as part of the Ordinance adopted by the local governing
body.
* All areas above 7000 degree days shall comply with Zone V.
14
Chapter 4
10 BUILDING DESIGN BY COMPONENT PERFORMANCE APPROACH
(Standard Design)
Section 400. General. The criteria of this Chapter establish
the minimum requirements for thermal design of the exterior envelope of
buildings (see Table 4-1) and for HVAC systems and its parts.
Section 401. (Reserved)
Section 402. Overall Thermal Performance.
(a) The stated Uo value of any one element of a building, such as
roof/ceiling, wall or floor, may be increased and the Uo value
for other components decreased provided that the overall heat
gain or loss for the entire building envelope does not exceed
the total resulting from the conformance to the stated Uo
values.
(b) Where return air ceiling plenums are employed, the roof/
ceiling assembly area shall:
1. For thermal transmittance purposes, not include the
ceiling proper nor the plenum space as part of the
assembly; and
2. For gross area purposes, be based upon the interior face
of the upper plenum surface.
(c) Exemption for Pas"sive'Solar Features.
Glazing areas which meet all of the following criteria may be
exempted from the Uo calculations:
1. The glazing area must have a thermal transmittance (U)
value of not greater than .65.
2. Glazing must be oriented within 300 of due south. If it
is mounted other than vertically, it must be tilted at
least 30° up from the horizontal to face south.
3. The glazing must be clear. (Transmission coefficient
numerically greater than or equal to .80 for the glazing
itself).
4. The glazing must receive direct solar exposure for 50
percent of the hours between 9:00 a.m. and 3:00 p.m. on
December 21.
5. The glazing must receive direct solar exposure for 85
percent of the hours between 9:00 a.m. and 3:OO p.m. on
March 21.
15
6. For each square foot of exempt glazing, the building must
contain a heat storage capacity equivalent to 75 BTUs/Day,
located inside the insulated shell of the structure, and
not covered with insulation materials such as carpet
yielding an "R" value of 1.0 or greater.
Heat storage capacity shall be calculated by the following
procedure:
HS = (WM) (SH) (T)
Where:
HS = Heat Storage Capacity (BTUs/Day)
WM = The weight of the materials (lbs.) inside the in-
sulated shell of the building to a depth yielding a
resistance of R-1, except in the case of slab floors
where only the slab itself is credited.
SH = Specific Heat of those materials (BTUs/lb.) (°F)
T = Temperature Fluctuation; 10°F per day will be the
maximum allowable for calculation purposes, except
that light weight frame construction will be allowed
to fluctuate 15°F per day.
(d) General insulation and vapor barriers shall be installed in
accordance with sound building practices.
Section 403. Thermal Performance Criteria for Low -Rise Residential
Buildings. Criteria for Residential Buildings three 3 stories or less
as defined in UBC: Group R-3 - detached one and two family dwellings;
Group R -Div. 1 - All other residential buildings three stories or less.
,=(a) The overall average thermal transmittance value of the gross
area of the elements of the exterior building envelope of a
low-rise residential building shall not exceed the values
given in Table 4-2. Equations 1 and 2 in Section 404 shall be
used to determine acceptable combinations of building components
and thermal properties to meet this requirement. Steady state
Uw values for opaque wall sections may be corrected by multi-
plying by the appropriate M factor before the calculation of
the Uo in Equation 2. Uo and Uw are specified in units of
BTU
hr sq ft OF .
(b) Floors over unheated spaces shall not exceed the Uo values
given in Table 4-4.
(c) Slab on Grade Floor: For slab on grade floors, the thermal
resistance of the insulation around the perimeter of the floor
shall not be greater than the value given in Table 4-2. The
insulation shall extend downward from the top of the slab for
16
a minimum distance of 24 inches or downward to the bottom of
the slab then horizontally beneath the slab for a minimum
total distance of 24 inches.
(d) Windows and doors and air leakage: (See Section 405).
Section 404. Thermal Performance Criteria for All Other Occupancies.
Heating Criteria.
1. The overall average thermal transmittance value (_Uo) of
the gross area of elements of the exterior building
envelope of all buildings other than low-rise residential
buildings .shall not exceed the values given in Tables 4-3
and 4-4. Equations 1 and 2 shall be used to determine
acceptable combinations of building components and thermal
properties to meet this requirement for heating. Steady
state Uw values for opaque wall sections may be corrected
by multiplying by the appropriate M Factor before the
calculation of Uo in Equation 2 of this section. Uo and
Uw are specified in units of BTU
hr sq ft °F
2. Floors over unheated spaces shall not exceed the Uo value
given in Table 4-3 and 44.
3. Slab on Grade Floors: For slab on grade floors the
thermal resistance of the insulation around the perimeter
of the floor shall not be greater than the value given in
Table 4-3 and 44.
Insulation installed inside the foundation shall extend
downward from the top of the slab for a minimum distance
of 24 inches, or downward to the bottom of the slab; then
horizontally beneath the slab for a minimum total distance
of 24 inches. Insulation installed outside the foundation
shall extend downward 12 inches below grade or frostline
or to the top of the footing.
(b) Cooling Criteria
1. Walls: Any building that is mechanically cooled shall
have an overall thermal transfer value (OTTV) for the
gross area of exterior walls not exceeding the values
shown in Table 4-5 in BTU/h/sq ft. Equation 3 of this
section shall be used to determine acceptable combinations
to meet these requirements.
2. Roof/Ceiling: Any building that is mechanically cooled
shall have a combined thermal transmittance value (Uo
value) for roof/ceiling not to exceed that specified in
Table 4-3 and 44.
17
EQUATION 1
U= 1
ro + RI + R2 ...ri
Where:
U = the thermal transmittance of the assembly
ro = outside air film resistancce,
r.= .17 for all exterior surfaces in winter
ro = .25 for all exterior surfaces in summer
ro = inside air film resistance,
ri = .51 for interior horizontal surfaced, heat flow up
ri = .92 for interior horizontal surfaces, heat flow down
ri = .68 for interior vertical surfaces
R = 1 = X = measure of the resistance to the passage of
C K heat for each element.
C = conductance, the heat flow through a specific material
of specific thickness.
K = insulation value of a material
X = the thickness of the material.
�IN
EQUATION 2
Uo = UwAw + U9A9 + UdAd .............
Where:
Uo = the average or combined transmittance of the gross
exterior wall, floor or roof/ceiling assembly area.
(Except slabs on grade.)
A = the gross exterior wall, floor or roof/ceiling assembly
area.
Uw = The thermal transmittance of the components of the
opaque wall, floor or roof/ceiling assembly area.
Aw = opaque wall, floor or roof/ceiling assembly area.
Ug = the thermal transmittance of the glazing (window or
skylight) area.
Ag = glazing area.
OM
Ud = the thermal transmittance of the door, or similar
opening.
Ad = door area.
NOTE: Where more than one type of wall, window, roof/
ceiling, door and skylight is used, the U and A terms for
those items shall be expended into sub -elements as:
UwiAwl + Uw2Aw2 + Uw3Aw3 + •••• etc.
EQUATION 3
OTTV = (UwAwTDEQ)+(AfSFSC)+(UfAf A t)
A
Where:
OTTV = average or combined thermal transfer value in
BTU
hr sq ft
A = gross exterior wall.
U = U value of opaque wall (all elements).
A = opaque wall area.
U = U value of the fenestration area
A = fenestration area.
TDEQ= temperature difference value (from Table 4-7)
SC = shading coefficient of the fenestration (see definitions)
SF = (See Table 4-6)
pt = temperature difference between exterior and interior
design condition °F.
NOTE: Where more than one type of wall is used, the
respective terms for those elements shall be expanded
into sub elements, as:
(Uw1Aw1TDEQl)+(Uw2Aw2TDEQ2)+....etc.
19
Section 405. Air Leakage for all Buildings. The requirements of
this section shall apply to all buildings and structures and only to
those locations separating outdoor ambient conditions from interior it
spaces that are heated or mechanically cooled. The requirements of this
section are not applicable to the separation of interior conditioned
spaces from each other.
(a) Exterior joints around windows and door frames, openings
between walls and foundation, between walls and roof and
between wall panels; openings at penetrations of utility
services through walls, floors and roofs; and all other such
openings in the building envelope shall be sealed, caulked,
gasketed, or weatherstripped to limit air leakage.
(b) All exterior doors shall be weatherstripped to limit air
leakage around their perimeter when in a closed position.
Doors meeting the infiltration requirements of Table 4-8
shall be deemed to comply.
(c) All exterior windows shall be designed to omit air leakage
into or from the building envelope, and shall have air infil-
tration rates no greater than those shown in Table 4-8.
Compliance with the criteria for air leakage of all types of
doors shall be determined by Standard ASTM E 283-73, Standard
Method of Test for Rate of Air Leakage through exterior windows,
curtain walls and doors.
0)"'
EXCEPTION: Site built and millwork shop made wooden sash are
exempt from testing but shall be made tightly fitting. Fixed
lights shall have glass retained by stops with sealant or
caulking all around. Operating sash shall have weatherstripping
working against overlapping trim, and a closer/latch which
will hold the sash closed. The window frame to framing crack
shall be made tight with caulking, overlapping membrane, or
other approved technique.
(d) Required fire doors with a fire resistant rating over one (1)
hours, and fire windows are exempt from this section.
Section 406. Building Mechanical Systems. The following sections
cover the determination of heating and cooling loads, design requirements,
and equipment and component performance and control requirements.
Requirements are established for insulating HVAC systems and for duct
construction.
EXCEPTIONS: Special applications, including but not limited to
hospitals, laboratories, thermally sensitive equipment and computer
rooms may be exempted from the requirements of this section when approved
by the Building Official.
0/
20
Section 407.
and cooling design
required and shall
practice.
Calculations of Heating and Cooling Loads. Heating
loads for the purpose of sizing HVAC systems are
be calculated in accordance with accepted engineering
The,design parameters specified in Section 3 shall apply for all
computations.
HVAC equipment for low-rise residential buildings shall be sized no
greater than 125 percent of the design load as calculated above. If the
selected manufacturer does not provide equipment in the range of 115 per-
cent to 125 percent of the design load, the next size larger than 125
percent may be used.
Section 408. Infiltration. Infiltration for heating and cooling
design loads shall be calculated using accepted engineering practice,
and Section 405.
Section 409. Simultaneous Heating and Cooling. Simultaneous
heating and cooling by reheating or recooling supply air or by concurrent
operation of independent heating and cooling systems serving a common
zone shall be restricted as delineated below:
(a) Recovered and non-depletable energy, provided the new energy
expended in the recovery process is less than the amount
recovered, may be used for control of temperature and humidity.
(b) New energy may be used for control of temperature if minimized
as delineated in paragraphs (c) through (g).
(c) Reheat Systems. Systems employing reheat and serving multiple
zones shall be provided with control that will automatically
reset the system cold air supply to the highest temperature
level that will satisfy the individual thermostat or primary
zone requiring the coolest air. Single zone reheat systems
shall be controlled to sequence heating and cooling. The
total installed capacity of all reheat using new energy shall
be limited to 15 percent of the total system design cooling
capacity.
(d) Dual Duct and Multi Zone Systems. These systems shall be
provided with control that will automatically reset: (1)
the cold deck air supply to the highest temperature that will
satisfy the zone requiring the coolest air, and (2) the hot
deck air supply to the lowest temperature that will satisfy
the zone requiring the warmest air.
Primary zone temperature and/or flow volume may be used as the
control for this section. Primary zone is defined as an area
with a single weather exposure and similar thermal loading.
The systems must be provided with heat pumps or recovery
devices so that new energy is not required on the hot and cold
deck or plenum simultaneously with the exception of limited
warm-up periods.
21
(e) Recooling Systems: Systems in which heated air is retooled,
directly or indirectly, to maintain space temperature shall be
provided with control that will automatically reset the tem-
perature to which the supply air is heated to the lowest
and/or optimum level that will satisfy the zone requiring the
warmest air. The system design shall limit the use of new
energy for recooling of heated air to 15 percent of the total
system heating capacity.
(f) A multiple zone HVAC system that employs reheating or recooling
for control of not more than 5,000/ft. /min., or 20 percent of
the total. supply air for the building, whichever is less,
shall be exempt from the supply air temperature reset require-
ment of paragraphs (c) through (g).
(g) Concurrent operation of independent heating and cooling
systems serving common spaces and requiring the use of new
energy for heating or cooling shall be minimized by one or
both of the following:
1. By providing sequential temperature control of both
heating and cooling capacity in each zone.
2. By limiting the heating energy input through auto-
matic reset control of the heating medium temperature
(or energy input rate) to only that necessary to
offset heat loss due to transmission and infiltration
and, where applicable, to heat the ventilation air
supply to the space.
Section 410. Energy Recovery. Consideration shall be given to
the use of recovery systems which will conserve energy (provided the
amount expended is less than the amount recovered) when the energy
transfer potential and the operating hours are considered. (See Chapter
5.)
Section 411. HVAC Equipment Performance Requirements.
(a) The requirement of this section applies to equipment and
component performance for heating, ventilating and air-con-
ditioning systems. Where equipment efficiency levels are
specified, approved data furnished by the equipment"supplier
or certified under a nationally recognized certification
program or rating procedure shall be used to satisfy these
requirements. Equipment efficiencies shall be based on the
standard rating conditions shown in Tables 4-9, 4-10 and
4-11.
(b) HVAC -System Heating Equipment Heat Pumps - Heating Mode: Heat
Pumps whose energy input is entirely electric shall have a
Coefficient of Performance (COP heating, as defined herein)
not less than the values shown in Table 4-12 except single
unit through -the -wall type heat pumps shall be exempt from
low temperature requirements; units less than 15,000 BTU/hr
at 470DB shall have a minimum COP of 2.00.'
22
1. These requirements apply to, but are not limited to,
unitary heat pumps (air source and water source) in the
heating mode and to heat pumps in the packaged terminal
air -conditioner and room air -conditioner forms in the
heating mode. Field assembled unitary heat pumps,
consisting of one or more components, shall comply with
this sect -,on.
2. Coefficient of Performance (COP) Heating: The ratio of
the rate of net heat output to the rate of total energy
input, expressed in consistent units and under designated
rating conditions.
The rate of net heat output shall be defined as the
change in the total heat content of the air entering and
leaving the equipment (not including supplementary heat).
Total energy input shall be determined by combining the
energy inputs to all elements, except supplementary
heaters, of the heat pump, including, but not limited to,
compressor(s), pump(s), supply -air fan(s), return -air
fan(.$), outdoor -air fan(s), cooling -tower fan(s), and the
HVAC -system equipment control circuit.
3. Supplementary Heater: The heat pump shall be installed
with a control to prevent supplementary heater operation
when the heating load can be met by the heat pump alone.
Supplementary heater operation is permitted during transient
periods, such as start-ups, following room thermostat
set -point advance, and during defrost, when the outdoor
air temperature is below 55°F.
A two-stage thermostat, which controls the supplementary
heat on its second stage, with outdoor air control, shall
be accepted as meeting this requirement. The cut -on
temperature for the compression heating shall be higher
than the cut -on temperature for the supplementary heat,
and the cut-off temperature for the compression heating
shall be higher than the cut-off temperature for the
supplementary heat. Supplementary heat may be derived
from any source of electric resistance heating or com-
bustion heating.
(c) HVAC -System -Combustion Heating Equipment: All gas and oil
fired central heating plants shall show a minimum combustion
efficiency of 75 percent at maximum rated output. Gas and oil
fired room and space heaters shall show a minimum combustion
efficiency of 70 percent at maximum rated output. Combustion
efficiency is defined as 100 percent minus stack losses in
percent of heat input. Stack losses are:
1. Loss due to sensible heat in dry flue gas
2. Loss due to incomplete combustion
3. Loss due to sensible and latent heat in moisture
formed by combustion of hydrogen in the fuel.
23
Central heating plant vents must be equipped with an approved
automatic damper, where conditioned air is used for combustion.
(d) Mechanical Ventilation. Each mechanical ventilation system
(supply and/or exhaust) shall be equipped with a readily
accessible or automatic means for either shut-off or volume
reduction and shut-off when ventilation is not required.
(e) Packaged and unitary HVAC -systems equipment, electrically
operated cooling mode. HVAC -system equipment as listed below
whose energy input in the cooling mode is entirely electric,
shall show a Coefficient of Performance (COP) cooling as
defined herein not less than values shown in Table 4-13.
1. These requirements apply to, but are not limited to
unitary cooling equipment (air-cooled, water-cooled and
evaporatively-cooled); the cooling mode of unitary and
packaged heat pumps (air source and water source);
packages terminal air -conditioners; and room air -con-
ditioners.
EXCEPTION: These requirements do not apply to equipment
used for refrigerated food or florists' and nurseries'
coolers.
2. Coefficient of Performance (COP) Cooling: The ratio of
the rate of net heat removal to the rate of total energy
input, expressed in consistent units and under designated
rating conditions.
The rate of new heat renewal shall be defined as the
change in the total heat contents of the air entering and
leaving the equipment (without reheat).
Total energy input shall be determined by combining the
energy inputs to all elements of the equipment, including
but not limited to compressor(s), pump(s), supply -air
fan(s), return -air fan(s), condenser -air fan(s), cooling -
tower fan(s), circulating water pump(s), and the HVAC -
system equipment control circuit.
(f) Applied HVAC -system components, electrically operated cooling
mode. HVAC -system components, as listed in Table 4-14 whose
energy input is entirely electric, shall show a Coefficient of
Performance (COP) cooling, as defined herein, and not less
than the values shown in Table 4-14.
1. Coefficient of Performance (COP) Cooling. The ratio of
the rate of net heat removal to the rate of total energy
input, expressed in consistent units and under designated
rating conditions.
The rate of net heat removal is defined as the difference
in total heat contents of the water or refrigerant entering
and leaving the component.
24
Total energy input shall be determined by combining the
energy inputs to all elements and accessories of the
component, including but not limited to, compressor(s),
internal circulating pump(s), condenser -air fan(s),
evaporative -condenser cooling water pump(s), purge, and
the HVAC -system component control circuit.
(g) HVAC -system equipment - heat operated cooling mode. Efficiency
limitation equipment: Heat operated cooling equipment shall
show a (COP) cooling not less than the values shown in Table
4-15. These requirements apply to, but are not limited to,
absorption equipment, engine driven equipment, and turbine
driven equipment.
(h) Fireplaces. Fireplaces shall be provided with:
1. Tightly -fitting flue dampers, operated with a readily
accessible manual or approved automatic control.
2. An outside source for combustion air. The duct shall be
at least six square inches in area, and shall be provided
with a readily operable damper.
Section 412. Energy for Air Delivery. The air transport factor
for non-residential all -air HVAC systems shall not be less than 5.0.
The factor shall be based on design system air flow for constant volume
systems. The factor for variable air volume systems may be based on
average conditions of operation. Energy for transfer of air through
heat recovery devices shall not be included in determining the factor;
however, such energy shall be included in the evaluation of the effect-
iveness of the heat recovery system.
Air Transport Factor = Space Sensible Heat Removal*
(Supply + Return Fans Power Input)*
*Expressed in BTU/Hr.
Section 413. Balancing. The HVAC system design shall provide
means for balancing air and water systems such as but not limited to
dampers, temperature and pressure test connections and balancing valves.
Section 414. Cooling with Outdoor Air (Economizer Cycle). Each
supply fan system shall be designed to use up to and including 100
percent of the fan system capacity for cooling with outdoor air auto-
matically. Activation of economizer cycle shall be controlled by
sensing outdoor air dry-bulb temperature.
EXCEPTIONS: Cooling with outdoor air is not required under any one or
more of the following conditions:
(a) Fan system capacity less than 3,500 CFM or 90,000 BTU/Hr.
total cooling capacity.
(b) The quality of the oudoor air is so poor as to require
extensive treatment of the air.
25
(c) The need for humidification or dehumidification requires the use
of more energy than is conserved by the outdoor air cooling.
(d) The use of outdoor air cooling may affect the operation of other,
systems so as to increase the overall energy consumption of the
building.
(e) Internal/external zone heat recovery or other energy recovery is
used, which is more efficient than using outdoor air.
(f) When all space cooling is accomplished by a circulating liquid
which transfer space heat directly or indirectly to a heat
rejection device such as a cooling tower without the use of a
refrigeration system.
Section 415. Controls.
(a) Temperature Control: Each HVAC system shall be provided with
.at least one thermostat for the regulation of temperature.
Where used to control both heating and cooling, each thermostat
shall be capable of being set from 55-85° F and shall be
capable of operating the system heating and cooling in sequence.
It shall be adjustable to provide a temperature range of up
to 10° F between full heating and full cooling, except as
allowed in Section 409(g).
(b) Humidity Control. If an HVAC system is equipped with a means
for adding moisture to maintain specific selected relative
humid.ities in spaces or zones, a humidistat shall be provided.
This device shall be capable of being set to prevent new
energy from being used to produce space relative humidity (rh)
above 30 percent rh. Where a humidistat is used in an HVAC
system for controlling moisture removal to maintain specific
selected relative humidities in spaces or zones, it shall be
capable of being set to prevent new energy from being used to
produce a space relative humidity below 60 percent relative
humidity.
EXCEPTION: Special occupancies requiring different relative
humidities may be permitted by the Building Official.
(c) Zoning for Temperature Control.
1. One and Two-family Dwellings: At least one thermostat
for regulation of space temperature shall be provided for
each separate HVAC system. In addition, a readily
accessible manual or automatic means shall be provided to
partially restrict or shut off the heating and/or cooling
input to each zone or floor not controlled by a thermostat.
2. Multi -Family Dwellings: For multi -family dwellings, each
individual dwelling unit shall be considered separately
and shall meet the above requirements. Spaces other than
living units shall meet the requirements of Section
.415 (c) (3).
99
C
2
3. All Other Types of Buildings or Occupancies: At least
one thermostat for regulation of space temperature shall
be provided for:
A. Each separate HVAC system.
B. Each separate zone. As a minimum each floor of a
building shall be considered as a separate zone. In
a multi -story building where the perimeter system
offsets only the transmission losses of the exterior
wall, an entire side of uniform exposure may be
zoned separately. A readily accessible manual or
automatic means shall be provided to restrict par-
tially or shut off the heating and/or cooling input
(for the exposure) to each floor.
4. Control Setback and Shut-off:
A. Residential Occupancy Groups: One -and -Two -Family
and Multi -Family dwellings - The thermostat required
in paragraphs 1 and 2 of this subsection (c) or an
alternate means such as a switch or clock, shall
provide a readily accessible, manual or automatic
means for reducing the energy required for heating
and cooling during the periods of•non-use or reduced
need, such as, but not limited to unoccupied periods
and sleeping hours. Lowering thermostat set points
to reduce energy consumption of heating systems
shall not cause energy to be expended to reach the
reduced setting.
B. Other Buildings and Occupancies: Each HVAC system
shall be equipped with a readily accessible or
automatic means of shutting off or reducing the
energy used for HVAC during periods of non-use or
alternate uses of the building spaces or zones
served by the system. The following are examples
that meet this requirement:
i. Manually adjustable automatic timing devices.
ii. Manual devices for use by operating personnel.
iii. Automatic control systems.
Section 416. Air Handling Duct System Insulation. All ducts,
plenums and enclosures installed in or on buildings shall be thermally
insulated to meet the requirements of Table 4-16.
EXCEPTIONS: Duct insulation (except where required to prevent
condensation) is not required in any of the following cases:
(a) Supply or return air ducts installed in unvented crawl spaces
with insulated walls, basements or cellars in one -and two-
family dwellings.
27
(b) When the heat gain or loss of the ducts, without insulation,
will not increase the energy requirements of the building.
(c) Within the HVAC equipment.
(d)_ Exhaust air ducts.
Section 417. Duct Construction. All duct work shall be constructed
and erected in accordance with the Uniform Mechanical Code.
Section 418. Piping Insulation. All piping installed to serve
buildings (and within) buildings shall be thermally insulated in accord-
ance with Table 4-17, except as stated herein, (for service water heating
systems, see Section 4]9).
(a) Other Insulation Thickness: Insulation thickness in Table 4-
17 is based on insulation having thermal resistance in the
range of 4.0 to 4.6 per inch of thickness on a flat surface at
a mean temperature of 75°F. Minimum insulation thickness
shall be increased for materials having "R" values less than
4.0 per be increased for materials having "R" values less than
4.0 per inch, or may be reduced for materials having "R"
values greater than 4.6 per inch.
1. For materials with thermal resistance greater than R =
4.6 per inch, the minimum insulation thickness may be
reduced as follows:
4.6 x Table 4-17 Thickness = New Minimum
Actual R Thickness
2. For materials with thermal resistance less than. R = 4.0
per inch, the minimum insulation thickness shall be
increased as follows:
4.0 x Table 4-17 Thickness = New Minimum
Actual R Thickness
(b) EXCEPTIONS: Piping insulation is not requred in any of the
following cases:
1. Piping installed within unitary HVAC equipment.
2. Piping at temperatures between 55F and 100F.
3. When the heat loss and/or heat gain of the piping, without
insulation, does not increase the energy requirements of
the building.
(c) Additional insulation with vapor barriers shall be provided to
prevent condensation where required.
Section 419. Service Water Heating.
(a) General: Hot water for domestic, sanitary and swimming pool
purposes shall be generated and delivered in a manner conducive
to saving heat energy.
(b) Scope: The purpose of the following provisions is to provide
criteria for design and equipment selection that will produce
energy savings when applied to service water heating.
Section 420. Water Heaters, Stora e Tanks, Boilers, and Piping.
when installed in non -conditioned spaces
(a) Performance Efficiency.
1. All gas and oil fired, automatic storage heaters shall
have a recovery efficiency (Er). not less than 75 percent
and a stand-by loss percentage (S) not exceeding:
S=2.3+67/V
:; 29
where:
V = rated volume in gallons
When tested in accordance with an approved or nationally
applied to
recognized standard, and when coefficients are
compensate for the specific type of fuel used.
2. Combination Service Water Heating/Space Heating Boilers:
be dependent on
Service water heating equipment shall not
year round operation of space heating boilers.
EXCEPTION: Exempt from these requirements are systems
heating boilers having a stand-by loss
with service/space
BTU/hr. less than:
�K
13.3 pmd + 400
.:
n*
= probable maximum demand in gallons per hour
pmd
`
n* = fraction of ear when outdoor daily mean temperature
exceeds 64.9 F,
The stand-by loss is to be determined for a test period
of 24 hr. duration while maintaining a boiler water
temperature of 90F above ambient.
(b) Temperature Controls
1. Service water heating systems shall be equipped with
capable of adjustment from
automatic temperature controls
the lowest to the highest acceptable temperature settings
<-
for the intended use.
k
2. Shut down: A separate switch shall be provided to permit
turning off the energy supplied to electric service water
heating systems. A separate valve shall be provided to
burner(s)
permit turning off the energy supplied to the main
of all other types of service water heating systems.
:; 29
3. Swimming Pools:
Heated swimming pools shall. be equipped with:
A. Controls which allow water temperature to be regulated
from the maximum design temperature down to 650F.
B. An ON-OFF switch for the pool heater, mounted for
easy access to allow shutting off the operation of
the heater without adjusting the thermostat setting
and to allow restarting without relighting a pilot
light; and
C. A pool cover at the surface of the water.
Section 421. Pump Operation. Circulating hot water systems
shall be arranged so that the circulating pumps) can be conveniently
turned off, automatically or manually, when the hot water system is not
in operation.
Section 422. Pipe Insulation. For recirculation systems, the
minimum piping insulation shall be in accordance with Table 4-17.
Section 423. Conservation of Hot Water.
(a) Showers: Showers used for other than safety reasons shall be
equipped with flow control devices to limit total flow to a
maximum of 3 gpm per shower head.
(b) Lavatories in restrooms of public facilities shall be equipped
with outlet devices which limit the flow of hot water to a
maximum of 0.5 gpm.
Section 424. Electrical Power and Lighting. Electrical dis-
tribution and lighting systems shall be designed for efficient dis-
tribution and use of electrical energy from the service entrance to and
at the points of use as provided herein.
Section 425. Electrical Distribution.
(a) Lighting Switching. Switching for building lighting systems
shall be installed to control the operation of the lighting
systems. The following mandatory requirements represent the
minimum lighting controls to be installed in any building.
(b) General: All lighting controls except automatic controls shall
be installed so as to be readily accessible.
EXCEPTION: Automatic controls, key controls, special controls,
such as theatre lighting, places of assembly, etc.
Section 426. Lighting Power Budget. A lighting power budget is
the upper limit to provide the lighting needs in accordance with the
criteria and calculation procedure specified herein.
30
The lighting power budget for the building shall be the sum of the
power limits computed for all lighted interior and exterior spaces and
shall be determined in accordance with the procedures specified in this
section.
EXCEPTION: One and two family detached dwellings and the dwelling
portion of multi -family buildings are exempt from the requirements of
this Section.
(a) The installed lighting wattage in the building shall not
exceed the budget level calculated in this section. The
budget wattage level shall be the sum of the interior budget
calculated in accordance with Section 426 (b) and the ex-
terior budget calculated in accordance with Section 426 (c)
Lighting wattage includes lamp and ballast wattage.
(b) The interior lighting budget shall be calculated by multiplying
the gross building area in square feet by the appropriate
unit power budget, in watts per square foot, specified in
Table 4-18.
The lighting power budget shall be based on the primary
occupancy for which the space within the building in intended.
If multiple occupancies are intended the lighting power budget
for each type of occupancy shall be separately calculated and
summed to obtain the lighting budget for the interior spaces
of the building. In cases where a lighting plan for only a
portion of a building is submitted, the interior lighting
budget shall be based on the gross floor area covered by the
plan.
(c) The exterior lighting budget shall be calculated by multiplying
the building perimeter in feet by 7.5 watts per foot. An
allowance for outdoor parking lighting may be added at 0.05
watts per square foot of parking area.
(d) Lighting for the following applications shall be exempted from
inclusion in the calculation of this section when approved by
the Building Official.
1. Stage lighting, entertainment, or audiovisual presentations
where the lighting is an essential technical element for
the function performed.
2. Lighting for medical and dental tasks.
3. Lighting in areas specifically designed for visually
handicapped people.
4. For restaurant occupancies, lighting for kitchens and
food preparation areas.
5. For Class I, II, and III retail occupancies as defined
in Table 4-18 lighting for highlighting applications may
be exempted from inclusion in the power budget up to the
following.limits:
31
Class I = 3.0 w/sq ft
Class II = 2.0 w/sq ft
Class III = 1.0 w/sq ft
32
0
0
TABLE 4-1
Classification of Building Occupancies
Residential
Non -
Residential
Other
(Table 4-4)
(Table 4-4)
single multi-
1 0.03 0.20
family family
0.08
R-3 R-1
0.23
(Table 4-2)
(Table 4-3)
TABLE 4-2
Maximum Allowed U Values
Residential Occupancies
Buildings 3 Stories or Less
More than
three stories
�--'Three stories
and less
Walls
Roofs/ (including
ZONE Ceilings glazing)1
Glazing2
Floors
Heated
Slab
on Grade
Unheated
Slab
on Grade
1 0.03 0.20
0.65
0.08
0.15
0.23
II 0.03 0.19
0.65
0.08
0.15
0.23
III 0.03 0.19
0.65
0.08
0.15
0.23
IV 0.03 0.18
0.65
0.08
0.12
0.19
V 0.03 1 0.15
0.65
0.05
0.12
0.19
1. In no case shall the average value of the opaque sections of wall be greater
than U=0.08.
2. All glazing must be special glazing, except that no more than 1% of the gross
exterior wall area may be single glazing for architectural or ornamental or
security purposes.
33
TABLE 4-3
Maximum Allowed U Values
Non -Residential Occupancies
Buildings 3 Stories or Less
ZONE
Ceilings
Walls
Floors
Heated
Slab
on Grade
Unheated
Slab
on Grade
I
0.05
0.25
0.08
0.15
0.23
II
0.05
0.25
0.08
0.15
0.23
III
0.05
0.25
0.08
0.15
0.23
IV
0.05
0.20
0.08
0.12
0.19
V
0.05
0.20
0.08
0.12
0.19
TABLE 4-4
Maximum Allowed U Values
All Occupancies
Buildinqs over 3 Stories
ZONE
Ceilings
Walls
Floors
Heated
Slab
on Grade
Unheated
Slab
on Grade
I
0.09
0.30
0.08
0.15
0.23
II
0.08
0.30
0.08
0.15
0.23
III
0.08
0.30
0.08
0.15
0.23
IV
0.07
f
0.25
i
0.08
0.12
0.19
V
0.06
0.25
0.08
s
1 0.12
0.19
34
TABLE 4-5
All Buildings Other Than Low -Rise Residen.
Cooling
Overall Thermal Transfer Values
(OTTV) - Walls
Degree North
OTTV=
Latitude
BTU/h.Ft2
46
35.0
47
35.0
48
36.0
49
36.0
Note: Equation 3 shall be used
to determine acceptable combin-
ations to meet the above require-
ments.
TABLE 4 -6 -
All Buildings. Other Than Low -Rise Residential
Degree North solar Facor
Latitude BTU/h.Ft
..__ 46 134.0-
47 135.0
48 136.0
49 137.0
Note: Use the Equation 3
35
TABLE 4-7
FACTORS FOR USE WITH EQUATIONS 2 6 3
TABLE 4-8
Allowable Air Infiltration Rates
Windows Residential Doors Commercial Doors
WALLS
(cfm per sq. ft. of
door -area)
WEIGHT OF
(cfm per lineal
CONSTRUCTION
Lbs./ft.
TD
M -FACTOR
entrance
EQFACTOR
0.5
0-25
44
1.00
26-40'
37
0.96
41-70
30
0.93
71 and above
23
0.90
TABLE 4-8
Allowable Air Infiltration Rates
Windows Residential Doors Commercial Doors
(cfm per sq. ft. of
door -area)
(cfm per lin. ft.
of crack)
(cfm per lineal
foot of operable
sash crack)
sliding
glass
entrance
swinging, slidingo
revolving
0.5
0.5
1.00
11.0
36
TABLE 4-9
HVAC Systen lleating Equipment (cleat Pumps)
Standard Rating Conditions
TYPE
AIR SOURCE
WATER SOURCE
CONDITIONS
I14LET
OUTLET
it entering.
67
--
-_
equipment F
70 db
70 db
70 db
utdoor unit
ondenserWater(water Cooled)F
--
--
mbient F
47 db/
17 db/
43 wb
15 wb
Cntering water
Temperature F
--
--
60
ater flow rate
--
--
as used in
cooling mode
TABLE 4-10
IIVAC System Equipment
Standard Rating Conditions --Cooling
TI:MPrRATIIRrS
it Entering r ui mcnt F
DB
WB
I14LET
OUTLET
80
67
--
-_
'ondrnscr Ambient(Air Cooled)r
95
1 75
1--
--
ondenserWater(water Cooled)F
--
--
BS
95
Standard ratings are at sea level
NOTE: db = dry bulb
wb = wet bulb
37
0
TABLE 4-11
Applied HVAC System Components
Standard Rating Conditions - -Cooling
Standard Ratings are at sea level.
*h f t2 F/Btu
TABLE 4-12
HVAC -System Heating Equipment (Heat Pumps)..'Minimum COP
nd Outdoor Temperature (*F)
F
Centrifugal or
ce - 47 dB/43WB
2.5'
Self -Contained
Condenserless
rce - 60 Enterin
Reciprocating
Reciprocating
ITEM
Water -Chiller
water -Chiller
Leaving Chilled water Temp. F
44
44
Entering Chilled water Temp.F
54
54
Leaving Condenser Water
Temp. F
Entering Water Temp. F
95
85•
--
_
arNon-Ferrous Tubes *
0.0005
0.0005
Fouling Factor, Water
'Steel Tubes *
Fouling Factor,
0.0010
0.0010
Refrigerant *
0.0000
_
0.0000
Condenser Ambient
(Air or Evap.Cooled) F
95db/75wb
Compressor
Water Cooled
Saturated
(or Evap.
Cooled) F
--
105
Air Cooled F
Discharge
--
120
Temp.
Standard Ratings are at sea level.
*h f t2 F/Btu
TABLE 4-12
HVAC -System Heating Equipment (Heat Pumps)..'Minimum COP
nd Outdoor Temperature (*F)
F
y
Minimum COP
ce - 47 dB/43WB
2.5'
FAirSource - 17 dB/1SWB
1.5
rce - 60 Enterin
2.5
urce
3.0
gee Note tollowing Table 4-14 and exception on Section 4-11 (b)
38
TABLE 4-13
Minimum EER and COP -Cooling
STANDARD RATING CAPACITY
EER
COP
Under 65,000 BTU/hr. (19,050 watts)
5.8
2.0
65,000 BTG/hr. (19,060 watts) and over
7.5
2.2
See Note following Table 4-14
TABLE 4-14
Applied HVAC Systen Components, Electrically Driven Eater
Chillers, and -Compressor and Condenser Units -Minimum EER
and COP -Cooling
NOTE: When tested at the standard rating conditions specified
in Table 4-9, 4-10, 4-11
TABLE 4-15
HVAC -System Heat -Operated Cooling Equipment
Minimum COP - Net Cooling Output
Total Heat Input (Electrical
Auxiliary Inputs Excluded)
HEAT SOURCE I MINIDSUM COP
pirect fired (gas, oil) ' 0.48
rndirect fired (steam, hot water) 0.68
39
CONDENSING
AIR WATER EVAP.
EER
COP
EER
COP
EER
:OP
COMPONENT
MEANS .
Centrifucal
7.8
2.3
13.6
4.0
Self-contained
Positive
Eater chillers
Displrcement
7.5
2.2
11.6
3.4
Cotkdenserless
P ositive
water chillers
Displacement
9.5
2.8
11.6
3.4
ompressor an
Condenser
Positive
units 65,000
Displacoment
BTU/hr (19,050
atts and
over)
8.5
2.5
11.9
3.5
11.
3.
NOTE: When tested at the standard rating conditions specified
in Table 4-9, 4-10, 4-11
TABLE 4-15
HVAC -System Heat -Operated Cooling Equipment
Minimum COP - Net Cooling Output
Total Heat Input (Electrical
Auxiliary Inputs Excluded)
HEAT SOURCE I MINIDSUM COP
pirect fired (gas, oil) ' 0.48
rndirect fired (steam, hot water) 0.68
39
Table 4-16
(10-D) (UNIFORM MECHANICAL CODE)
TABLE NO. 16 —INSULATION OF DUCTS
DUCT LOCATION
INSULATION TYPES
MECHANICALLY
COOLED
HEATING
ZONE,
INSULATION TYPES
HEATING ONLY
On roof or on exterior
of building
C. Wand W
I
A and W
If
11 and W
I►I
t•and NN*
Attics, garages and crawl
spaces
A and W
I
A
Il
A
!ll
t3
In walls', within floor-
ceiling spaces'
A and W
I
A
It
A
Ill
B
Within the conditioned
space or in basements
None Required
None Required
Cement slab or within
ground
None Required
None Required
NOTE: Where ducts are used for both heating and cooling, the minimum in-
sulation shall be as required for the most restrictive condition.
'Insulation may be omitted on that portion of a duct which is located within a
wall or a floor -ceiling space where both sides of this space arc exposed to
conditioned air and where this space is not ventilated or otherwise exposed
to unconditioned air.
'Vapor barriers shall be installed on conditional air supply ducts in geographic
areas where the average of the July. August and September mean dcwpoini
temperature exceeds 60' F.
'Heating I)cgrce Days:
Zone I below 45001). D.
'Lone 11 4501 to 8fXX) D. D.
'Lone III over SWI 1). 1).
INStILATION TYlIFS:
A. 1 -inch 0.60 Ib./cu. ft. mineral fiber blankets and felt, rtwk, slag or glass
'.i -inch 1.5 to 3 Ib./cu. It. blanket duct liner, riwk, %lag or glass
%2 -inch 3 to 10 lb./cu. ft. board, mineral fiber, rock, slag or glass
or equivalent to provide an installed Conductance = 0.48
B. 2 -inch 0.601b./cu. ft. mineral fiber blanket
1 -inch 1.5 to 3 Ib./cu. ft. mineral blanket (duct liner)
1 -inch 3 to 10 lb./cu. ft. mineral fiber board
or equivalent to provide an installed Conductance = 0.24
C. 34neh 0.60lb./cu. ft. mineral fiber blanket
I'/z -inch 1.5 to 3 Ib./cu. ft. mineral blanket (duct liner)
11/2 -inch 3 to 10 lb./cu. ft. mineral fiber board
or equivalent to provide an installed Conductance = 0.16
V. Vapor barrier, with perm rating nbt greater than 0.05 perms, all joints sealed.
W. Approved weatherproof barrier.
40
TABLE 4-17
Minimum Pipe Insulation
TABLE 4-18
Occupancy
t e*
FLUID
TEMPER-
INSULATION THICKNESS IN
INCHES FOR PIPE SIZES
-
OUTS
1"
1-1/4
"--
2-1/2
5"
8"
PIPING SYSTEM
ATURE
UP TO
AND
TO
TO
TO
AND
TYPES _
RJUIGE, F
2"
LESS
2"
4"
6
LARGER
2.5
Class V (over 40,000 sq.ft.)
2.35
Schools
2.0
Warehouses
0,7
*NOTE: In the case of an occupancy type not specifically
HEATING
square foot shall not apply.
41
SYSTEMS
Steam and
Hot [dater
High Pressure/
306-450
1-1/2
1-1/
2
2-1/2
3-1/2
3-1/2
Temp.
Med.Pressure/
251-305
1-1/2
1-1/
2
2-1/2
3
3
Temp.
Low Pressure/
201-250
1
1
1-1/2
1-1/2
2
2
Temp.
Low Temp.
120-200
1/2
1
1
1
1
1-1/2
Steam
Condensate
(for Feed
Any
1
1
1
1-1/2
1-1/2
2
Water)
COOLING
SYSTEMS
Chilled mater
40-55
1/2
1/2
3/4
1
1
1
Refrigerant, or
Brine
Below
1
1
1-1/2
1-1/2
1-1/
1-1/2
40
TABLE 4-18
Occupancy
t e*
Lighting power budget -
(watts/sq.ft.)
Auditoriums, theatres,
public assem}-ly
1.1
Hospitals
2,0
Indoor Parking
0.3
Libraries
2,0
Offices
2,0
Restaurants
1.85
Retail Stores and Museums
Class I (less than 1000 sq.ft.)
3.0
Class II (1000 to 6000 sq.ft.)
2.75
Class III (6000 to 20,000 sq.ft.)
2.6
Class IV (20,000 to 40,000 sq.ft.)
2.5
Class V (over 40,000 sq.ft.)
2.35
Schools
2.0
Warehouses
0,7
*NOTE: In the case of an occupancy type not specifically
mentioned above, the lighting power budget in watts per
square foot shall not apply.
41
Chapter 5
BUILDING DESIGN BY SYSTEMS ANALYSIS AND
BUILDING UTILIZING NON-DEPLETABLE ENERGY SOURCES
Section 500. General. This chapter establishes design criteria
in terms of total energy use by a building including all of its systems.
Section 501. Energy Analysis. Compliance with this section will
require an annual energy analysis.
A building designed in accordance with this chapter (the "alternative
design building") will comply with this Code if the annual energy con-
sumption is not greater than that of a building of similar design (a
"standard design") whose enclosure elements and energy consuming systems
are designed in accordance with Chapter 4 or Chapter 6. The calculated
energy consumption of the alternative design shall be subject to a
limitation in the improvement credited to any individual building system
as outlined in Section 503.
"Building of similar design" shall mean a building utilizing the
same energy source(s) for the same functions and having equal floor
area, environmental requirements, occupancy, climate data and usage
schedule. Inputs to the energy analysis relating to occupancy and usage
shall correspond to the expected occupancy and usage of the building.
The alternative design shall incorporate the applicable provisions
of Section 415 (mechanical system controls), Section 420(b) (water
temperature control), and Section 425(c) (lighting switching). a
Section 502. Design. The standard design, conforming to the
criteria of Chapter 4 or Chapter 6 and the proposed alternative design
shall be designed on a common basis as specified herein.
The comparison of total energy usage shall be expressed in BTU
per square foot of gross floor area per year for the standard design and
the alternative design. Comparison of similar elements, systems or
components shall be expressed in dimensions or terms accepted by standard
engineering practice.
If the proposed alternative design results in an increase in
consumption of one energy source and a decrease in another energy
source, even though similar sources are used for similar purposes, the
difference in each energy source shall be converted to equivalent energy
units for purposes of comparing the total energy used.
Section 503. Analysis Procedure. The analysis of the annual
energy usage of the standard design and the proposed alternative build-
ing and system design shall meet the following criteria:
(a) The building heating/cooling load calculation procedure used
for annual energy consumption analysis shall be of sufficient
detail to permit the evaluation of effect of factors specified
in Section 504.
42
(b) The calculation procedure used to simulate the operation of
the building and its service systems through a full year
operating period shall be of sufficient detail to permit the
evaluation of the effect of system design, climatic factors,
operational characteristics, and mechanical equipment on
annual energy usage. Manufacturer's data or comparable field
test data shall be used when available in the simulation of
all systems and equipment. The calculation procedure shall be
based upon operation of the building and its service systems
through a typical year. Variations in climatic data shall be
represented.
(c) The calculation procedure for the standard design and the
proposed alternative design shall separately identify the
energy input to each of the following systems: heating,
cooling, ventilation, and lighting. The energy input to any
other system using over ten percent of the total energy input
shall also be separately identified. The energy use for the
standard and alternative designs shall be calculated by
summing the energy inputs assigned to each identified system
and all other energy inputs not separately identified. The
systems identified, and, to the extent possible, the assumptions
made in assigning energy inputs to each system, shall be the
same for the standard design and the proposed alternative
design. When electrically driven heat pumps are employed to
provide all or part of the heat for the alternative design,
the standard design shall also, for the purposes of the
analysis, assume that electrically driven heat pumps in
conformance with Section 411 and having capacity at least as
great as those used in the alternative design are employed.
(d) The energy use assigned to each building system in the proposed
alternative design shall be as calculated in subsection (c) or
eighty percent of the use calculated for the same system in
the standard design in subsection (c), whichever is greater.
Section 504. Calculation Procedure. The calculation procedure
shall cover the following items:
(a) Design requirements: Design parameters required in Chapter 3.
(b) Climatic data: coincident data for temperatures, solar radiation,
wind and humidity of typical days in the year representing
seasonal variation.
(c) Building data: Orientation, size, shape, mass, air, moisture
and heat transfer characteristics.
(d) Operational characteristics: Temperature, humidity, ventilation,
illumination, control mode for occupied and unoccupied hours.
(e) Mechanical equipment: Design capacity, part load profile.
(f) Building loads: Internal heat generation, lighting, equipment,
number of people during occupied and unoccupied periods.
43
Section 505. Documentation. A proposed alternative design
submitted under this chapter shall be accompanied by an energy analysis
comparison report. The report shall provide sufficient technical detail
on the two buildings and their systems and on the data used in and
resulting from the comparative analysis to certify that both the analysis
and the designs meet the criteria of this Code.
The documentation shall demonstrate that the analysis used is
consistent with accepted techniques and procedures.
EXCEPTION: Proposed alternative designs for single family and two
family dwellings and for commercial and industrial structures having the
indoor temperature controlled from a single point need not provide the
energy usage analysis for a full year. A comparison of energy consumption
between the alternative design and the standard design in a manner which
follows approved engineering practices and standards, as approved by the
Building Official, shall be provided.
Section 506. Buildings Utilizing Non-Depletable Energy.
(a) Buildings utilizing solar, geothermal, wind or other non-
depletable energy sources for all or part.of its energy source
shall meet the requirements of this chapter of this Code. The
energy derived from the non-depletable source may be excluded
from the total annual energy consumption attributed to the
alternate design building by this chapter.
(b) To qualify for this exclusion, such non-depletable energy must
be derived from a specific collection, storage and distribution
system.
(c) This section shall also apply to passive cooling processes in
lieu of energy consuming processes.
(d) All other criteria covered in this chapter and Chapter 4 shall
apply to the proposed alternative designs utilizing non-
depletable sources of energy.
Section 507. Documentation - Buildings Using Non-Depletable Energy
Sources. Proposes alternative designs, submitted as requests for
exception to the standard design criteria shall be accompanied by an
energy analysis, as specified in this chapter. The -report shall provide
sufficient technical detail on the alternative building and system
designs and on the data employed in and resulting from the comparative
analysis to verify that both the analysis and the designs meet the
criteria of Chapter 4 and this chapter.
The energy derived from non-depletable sources and the reduction in
conventional energy requirements derived from nocturnal cooling shall be
separately identified from the overall building energy use. Supporting
documentation, on the basis of the performance estimates for the afore-
mentioned non-depletable energy sources or noctural cooling means, must
be submitted.
Energy usage must be calculated in accordance with the design
conditions and methods specified in this Code.
44
Chapter 6
PRESCRIPTIVE REQUIREMENTS APPROACH
EXCEPTION: Insulation may be omitted from floor over
heated basements, heated garages, or under floor areas
used as plenums in zones III, IV, and V where operable
foundation vents are used. If foundation walls are
insulated in accordance with Section 601 (a), the in-
sulation shall be attached in a permanent manner.
45
Section 600. General.
(a)
This chapter establishes design criteria in terms of prescribed
requirements for building construction.
(b)
The requirements contained in this chapter are applicable only
to buildings less than 5000 square feet in gross floor area or
low-rise residential buildings. Other methods may be used
provided a satisfactory design is submitted showing compliance
G!'
with the performance standards of this Code.
N
(c)
Installed insulation having a minimum "R" value as specified
in this chapter shall be accepted as providing the corresponding
required "U" value.
Section
601. Building Envelope Requirements
(a)
Walls. The opaque exterior wall sections and the interior
walls exposed to unheated spaces shall have a thermal resistance
"R" value and shall not be less than the value specified in
Table 6-1.
(b)
Roof/Ceiling. The roof/ceiling assembly shall have a thermal
resistance "R" value and shall not be less than the value
specified for the indicated type of construction in Table 6-1.
(c)
Thermal Design Standards for Floors.
1. Slab on Grade Floors. For slab on grade floors, the
thermal resistance of the insulation around the perimeter
of the floor shall not be less than the value given in
r'
Table 6-1.
Insulation installed inside the foundation shall extend
downward from the top of the slab for a minimum distance
of 24 inches, or downward to the bottom of the slab; then
horizontally beneath the slab for a minimum total distance
of 24 inches. Insulation installed outside the foundation
shall extend downward 12 inches below grade or frostline
or to the top of the footing.
2. Floor Sections. Floor sections over unheated spaces,
such as unheated basements, unheated garages or ventilated
crawl spaces, shall be constructed to comply with the
required values as specified in Table 6-1.
EXCEPTION: Insulation may be omitted from floor over
heated basements, heated garages, or under floor areas
used as plenums in zones III, IV, and V where operable
foundation vents are used. If foundation walls are
insulated in accordance with Section 601 (a), the in-
sulation shall be attached in a permanent manner.
45
(d) Thermal Design Standards for Openings.
1. The area of skylights and the exterior windows sloped .
more than 30° from the vertical shall be doubled and
this area shall be included in the percentage of the
total glazing area as allowed for in Table 6-2.
Glazing meeting the criteria of part 2 of this sub -section
(d) may be excluded from the calculation of glazed area.
2. Exemptions for Passive Solar Features.
Glazing area which meets the following requirements may
be excluded from the glazed area percentage calculation
of part 1 of this subsection (d). The requirements
establish criteria for solar access during the heating
season, resistance to heat loss, and the provision of
heat storage capacity within the insulated walls, either4„
as part of a passive solar design or as part of the
ordinary building floor, walls, or ceiling.
A. The area must be double -glazed.
B. The glazing must be oriented within 30 degrees
of due south.
C. The glazing must be untinted, non-reflecting glass.
D. The glazing must receive direct solar exposure for
50 percent of the hours between 9:00 a.m. and 3:00
p.m. on December 21.
E. The glazing must receive direct solar exposure for
85 percent of the hours between 9:00 a.m. and 3:00
p.m. on March 21.
F. For each square foot of exempt glazing, the building
must contain a heat storage capacity equivalent to
75 BTU/day, located inside the insulated shell of
the structure, and not covered with insulation
materials such as carpet yielding an "R" value of
1.0 or greater. Heat storage capacity is calculated
as specified in Section 402 (c) 6.
G. Compliance with all the requirements of Section
402 (c)_6 will be taken as compliance with the above
criteria for exempt glazing.
3. All skylights shall be double -glazed.
(e) Air Leakage.
1. Windows and Doors. All windows and doors shall conform
to the air infiltration requirements specified in Section
405. Site built windows shall be constructed to minimize
leakage.
46
EXCEPTION: Required fire doors with a fire resistance
rating over one (1) hour and fire windows are exempt from
this section.
2. Exterior joints around windows and door frames, openings
between walls and foundations, between walls and roof and
between wall panels; openings at penetrations of utility
services through walls, floors and roofs; and all other
such openings in the building envelope shall be sealed,
caulked, gasketed, or weatherstripped to limit air leakage.
(f) Vapor Barriers. A ground cover of 4 mil. (0.004") polyethylene
or equivalent, lapped one foot at each joint and extended up
the foundation wall to at least the outside ground line, is
required at crawl spaces.
An approved vapor barrier shall be properly installed in roof
decks, in enclosed rafter spaces formed where ceilings are
applied directly to the underside of roof rafters and at
exterior walls.
(g) General Insulation Requirements. Loose Fill. Blown or poured
loose fill insulation may be used in attic spaces where the
slope of the roof is not less than 2 1/2 feet in 12 feet and
there is at least 30 inches of clear distance from the top of
the bottom chord of the truss or ceiling joist to the underside
of the roof sheathing at the roof ridge. When eave vents are
installed, baffling of the vent openings shall be provided so
as to deflect the incoming air above the surface of the insula-
tion. Baffles shall be in place at the time of framing inspection.
Section 602. Building Mechanical Systems - General. All HVAC
devices, components and their elements shall conform to the requirements
of this section.
(a) Heating and Mechanical,Cooling Devices.
All heating and mechanical cooling devices shall meet the
required efficiency factor specified herein or in Tables
4-12, 4-13; 4-14 and 4-15, for the specific type of
device.
2. Combustion Heating Equipment. All gas and oil fired
central comfort heating equipment shall show a minimum
combustion efficiency of 75 percent at maximum rated
output. Gas and oil fired room or space heaters shall
show a minimum combustion efficiency of 70 percent at
maximum rated output. Combustion efficiency is defined
as 100 percent minus stack losses in percent of heat
input. Stack losses are:
A. Loss due to sensible heat in dry fuel gas.
B. Loss due to incomplete combustion.
C. Loss due to sensible and latent heat in moisture
formed by combustion of hydrogen in fuel.
WA
Flues must be equipped with an approved automatic damper.
3.. Fireplaces. Fireplaces shall be provided with:
A. Tightly -fitting flue dampers, operated with a readily
accessible manual or approved automatic control.
B. An outside source for combustion air. The duct
shall be at least six square inches in area, and
shall be provided with a readily operable damper.
4. Calculation of Heating and Cooling Loads. Heating and
cooling design loads for the purpose of sizing HVAC
systems are required and shall be calculated in accord-
ance with accepted engineering practice. The design
parameters specified in Chapter 3 shall apply for all
computations,
HVAC equipment for low-rise residential buildings shall
be sized no greater than 125 percent of the design load
as calculated above. If the selected manufacturer does
not provide equipment in the range of 115 percent to
125 percent of the design load, the next size larger than
125 percent may be used.
All associated duct work shall be sized to meet air flow
requirements as determined by the load calculation.
(b) Temperature Control.
Each heating system shall be provided with at least one thermo-
stat for the regulation of temperature. Each thermostat shall
be capable of being set as follows:
Where used to control heating only - 55-751
Where used to control cooling only - 70-85°
Where used to control both heating and cooling, it shall
conform to the requirements of Section 415.
(c) Zoning for Temperature Control
I. Group R-3 Occupancy
At least one thermostat for regulation of space temperature
shall be provided for each separate HVAC system. In
addition, a readily accessible manual or automatic means
shall be provided to partially restrict or shut off the
heating or cooling input to each zone or floor.
EXCEPTION: Nonconditioned basements and garages.
2. Group R-1 Occupancy
For multi -family dwellings, each individual dwelling unit
shall be considered separately and shall meet the requirements
M
of Section 602. Spaces other than living units shall
meet the requirements of Section 415 (c) 1.
3. Control Setback and Shutoff: Group R-1 and R-2
The thermostat required in (a) and (b) or an alternate
means such as a switch or clock, shall provide a readily
accessible, manual or automatic means for reducing the
energy required for heating and cooling during periods of
non-use or reduced need such as, but not limited to,
unoccupied periods and sleeping hours. Lowering thermostat
set points to reduce energy consumption of heating systems
shall not cause energy to be expended to reach the reduced
setting.
4. Duct Insulation.
All ducts, plenums and enclosures installed in or on
buildings shall be thermally insulated and constructed in
accordance with Section 416.
5. Pipe Insulation.
All piping installed to serve building or within buildings
shall be thermally insulated in accordance with Table 4-
17.
EXCEPTION: For service water heating systems, see Section
603.
Section 603. Service Water Heating. Water heating storage tanks,
boilers and piping for all water heating systems shall be installed in
accordance with the following:
(a) Temperature Controls.
Service water heating systems shall be equipped with automatic
temperature controls capable of adjustment from the lowest to
the highest acceptable temperature settings for the intended
use.
(b) Swimming Pools
Heated swimming pools shall be equipped with:
1. Controls to limit heating water temperature to no more
than 80°F; and
2. A pool cover at the surface of the water.
(c) Pump Operation.
Circulating hot water systems shall be arranged so that the
circulating pump(s) can be conveniently turned off, automatically
or manually, when the hot water system is not in operation.
49
(d) Insulation.
For recirculating systems, piping heat loss shall be limited
to a maximum of 25 BTU/hr ft2 of external pipe surface for
above ground piping and a maximum of 35 BTU/hr ft2 of external
pipe surface for underground piping. Maximum heat loss shall
be determined at a temperature differential equal to the
maximum water temperature minus a design ambient temperature
no higher than 65°F. (Table 4-17).
(e) Showers.
Showers used for other than safety reasons shall be equipped
with flow control devices to limit total flow to a maximum of
3 gpm per shower head.
(f) Water Heater.
An insulation wrap shall be added to all electric water
heaters with less than R-16, sufficient to bring the total
insulation up to R-16.
Section 604. Electrical Power and Lighting. The electrical
power distribution and lighting systems shall conform to the requir-
ements of Section 424, et seq.
EXCEPTION: One and Two-family detached dwellings and the dwelling
portion of Multi -family buildings are exempt from the requirements of
this section.
3#7
TABLE 6-1
Minimum (average)l Allowed R -Values
ZONE
Ceilings
Roof
Decks
Walls3
Floors
Heated
Slab
on Grade
Unheated
Slab
on Grade
1
30
30
11
11
6.35
4.25
II
30
30
11
11
6.35
4.25
III
30
30
11
11
6.35
4.25
IV
30
30
13
11
8.00,
5.40
V
30
30
18
19
8.00
5.40
1. R -value is for installed insulation material only. Where insulation
is installed in a continuous manner and is not interrupted by occasional
framing members, its R value may be increased by 20% in determining
compliance with. the requirements of this table. This allowance does
not apply to insulation of slab on grade.
2. Enclosed joist or rafter spaces formed where ceilings are applied
directly to the underside of roof joists or rafters must have joists
or rafters of sufficient size to provide a minimum of one inch clear
vented air space above the insulation (See also Section 3205 (c) of USC).
Ceiling insulation may be tapered or compressed at the perimeter to
permit proper venting.
3. Concrete or masonry foundation walls of "unfinished basements" need not
be insulated until finished, provided that any frame cripple walls shall
comply with the insulation requirements of this table. Insulation instal-
led shall comply with the requirements of this table.
51
TABLE 6-2
Maximum Percentage of Gross Exterior
Wall Area in Glazing
ZONE
Max. Percentage
Glazing Area
I
21
II
19
III
19
IV
19
V
17
All Glazing must be special glazing, except that no more than 1% of the gross
extQrior wall area may be single glazing for architectural or ornamental or
security purposes.
•
!!here +.,,,ails contain glazing that is exempt under the passive solar provisions
of Section 601(d)2, these maximum percentages shall apply to the remaining glass
area on the basis of the gross exterior area of the remaining walls.
If the design glazing percentage is greater than the figure in the table, the
calculation procedure of Section 403 must be used.
52