EMERGENCY RULES
Purpose: To adopt changes to the mechanical efficiency tables and requirements in chapter 51-11 WAC to conform to federal law.
Citation of Existing Rules Affected by this Order: Amending WAC 51-11-0402 and 51-11-1445.
Statutory Authority for Adoption: RCW 19.27A.022, 19.27A.025, and 19.27A.045.
Other Authority: Chapters 19.27 and 34.05 RCW.
Under RCW 34.05.350 the agency for good cause finds that state or federal law or federal rule or a federal deadline for state receipt of federal funds requires immediate adoption of a rule.
Reasons for this Finding: The state Building Code Council (council), based on the following good cause, finds that an emergency affecting the general welfare of the state of Washington exists. The council further finds that immediate amendment of a certain council rule is necessary to comply with federal law and that observing the time requirements of notice and opportunity to comment would be contrary to the public interest.
The declaration of emergency affecting the general welfare of the state of Washington is based on the following findings:
That federal law or federal rule requires immediate adoption of a rule.
The Washington State Energy Code amendments to Sections 402 and 1454 contained herein as adopted by the council under emergency rule making pursuant to RCW 34.05.350, will bring Washington into compliance with the National Appliance Energy Conservation Act. Without this rule change, the code will not comply with federal law.
Number of Sections Adopted in Order to Comply with Federal Statute: New 0, Amended 0, Repealed 0; Federal Rules or Standards: New 0, Amended 2, Repealed 0; or Recently Enacted State Statutes: New 0, Amended 0, Repealed 0.
Number of Sections Adopted at Request of a Nongovernmental Entity: New 0, Amended 0, Repealed 0.
Number of Sections Adopted on the Agency's Own Initiative: New 0, Amended 2, Repealed 0.
Number of Sections Adopted in Order to Clarify, Streamline, or Reform Agency Procedures: New 0, Amended 0, Repealed 0.
Number of Sections Adopted Using Negotiated Rule Making: New 0, Amended 0, Repealed 0; Pilot Rule Making: New 0, Amended 0, Repealed 0; or Other Alternative Rule Making: New 0, Amended 0, Repealed 0.
Date Adopted: December 1, 2005.
John Neff
Council Chair
OTS-8486.4
AMENDATORY SECTION(Amending WSR 04-01-106, filed 12/17/03,
effective 7/1/04)
WAC 51-11-0402
Systems analysis.
402.1 Special Requirements for All Group R Occupancy:
402.1.1 Energy Budgets: Proposed buildings designed in
accordance with this section shall be designed to use no more
energy from nonrenewable sources for space heating, and
domestic hot water heating than a standard building whose
enclosure elements and energy consuming systems are designed
in accordance with section 502.2 of this Code for the
appropriate climate zone, and heating system type. Energy
derived from renewable sources may be excluded from the total
annual energy consumption attributed to the alternative
building.
402.1.2 Calculation of Energy Consumption: The
application for a building permit shall include documentation
which demonstrates, using a calculation procedure as listed in
Chapter 8, or an approved alternate, that the proposed
building's annual space heating energy use does not exceed the
annual space heating and water heating energy use of a
standard building conforming to Chapter 5 of this Code for the
appropriate climate zone. The total calculated annual energy
consumption shall be shown in units of kWh/ft2-yr or Btu/ft2-yr
of conditioned area.
402.1.3 Input Values: The following standardized input
values shall be used in calculating annual space heating
budgets:
| PARAMETER | VALUE | |
| Thermostat set point, heating Thermostat set point, cooling Thermostat night set back Thermostat night set back period |
65° F 78° F 65° F 0 hours |
|
| Internal gain | ||
| R-3 and R-4 units R-1 and R-2 units |
3000 Btu/hr 1500 Btu/hr |
|
| Domestic Hot Water Heater Setpoint |
120° F |
|
| Domestic Hot Water Consumption |
20 gallons/person/day. | |
| Minimum heat storage | Calculated using standard engineering practice for the actual building or as approved. | |
Site weather data |
Typical meteorological year (TMY) or ersatz TMY data for the closest appropriate TMY site or other sites as approved. |
|
| Heating equipment efficiency | ||
| (( Heat Pumps Other Fuels |
6.80 HSPF. 0.78 AFUE.))Equipment shall comply with Section 1411. |
|
1. Overall thermal transmittance, Uo, of building envelope
or individual building components;
2. Heat storage capacity of building;
3. Glazing orientation; area; and solar heat
coefficients;
4. Heating system efficiency.
402.1.4 Solar Shading and Access: Building designs using
passive solar features with eight percent or more south facing
equivalent glazing to qualify shall provide to the building
official a sun chart or other approved documentation depicting
actual site shading for use in calculating compliance under
this section. The building shall contain at least forty-five
Btu/°F for each square foot of south facing glass.
402.1.5 Infiltration: Infiltration levels used shall be
set at 0.35 air changes per hour for thermal calculation
purposes only.
402.1.6 Heat Pumps: The heating season performance
factor (HSPF) for heat pumps shall be calculated using
procedures consistent with section 5.2 of the U.S. Department
of Energy Test Procedure for Central Air Conditioners,
including heat pumps published in the December 27, 1979
Federal Register Vol. 44, No. 24.10 CFR 430. Climate data as
specified above, the proposed buildings overall thermal
performance value (Btu/°F) and the standardized input
assumptions specified above shall be used to model the heat
pumps HSPF.
402.2 Energy Analysis: Compliance with this chapter will
require an analysis of the annual energy usage, hereinafter
called an annual energy analysis.
[Statutory Authority: RCW 19.27A.020, 19.27A.045. 04-01-106,
§ 51-11-0402, filed 12/17/03, effective 7/1/04. Statutory
Authority: RCW 19.27A.025 and 19.27A.045. 98-03-003, §
51-11-0402, filed 1/8/98, effective 7/1/98. Statutory
Authority: Chapters 19.27, 19.27A and 34.05 RCW. 94-05-059,
§ 51-11-0402, filed 2/10/94, effective 4/1/94. Statutory
Authority: RCW 19.27A.020 and 1990 c 2. 91-01-112, §
51-11-0402, filed 12/19/90, effective 7/1/91.]
EXCEPTIONS:
Chapters 5, and 6 of this Code establish criteria for different energy-consuming and enclosure elements
of the building which, will eliminate the requirement for an annual systems energy analysis while
meeting the intent of this Code.
A building designed in accordance with this chapter will be deemed as complying with this Code if the
calculated annual energy consumption is not greater than a similar building (defined as a "standard
design") whose enclosure elements and energy-consuming systems are designed in accordance with
Chapter 5.
For an alternate building design to be considered similar to a "standard design," it shall utilize the
same energy source(s) for the same functions and have equal floor area and the same ratio of envelope
area to floor area, environmental requirements, occupancy, climate data and usage operational
schedule.
402.3 Design: The standard design, conforming to the
criteria of Chapter 5 and the proposed alternative design
shall be designed on a common basis as specified herein:
The comparison shall be expressed as kBtu or kWh input
per square foot of conditioned floor area per year at the
building site.
402.4 Analysis Procedure: The analysis of the annual
energy usage of the standard and the proposed alternative
building and system design shall meet the following criteria:
a. The building heating/cooling load calculation
procedure used for annual energy consumption analysis shall be
detailed to permit the evaluation of effect of factors
specified in section 402.5.
b. The calculation procedure used to simulate the
operation of the building and its service systems through a
full-year operating period shall be detailed 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
systems and equipment. The calculation procedure shall be
based upon eight thousand seven hundred sixty hours of
operation of the building and its service systems.
402.5 Calculation Procedure: The calculation procedure
shall cover the following items:
a. Design requirements -- Environmental requirements as
required in Chapter 3.
b. Climatic data -- Coincident hourly 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.
EXCEPTION:
Group R Occupancy shall comply with calculation procedures in Chapter 8, or an approved alternate.
402.6 Documentation: Proposed alternative designs,
submitted as requests for exception to the standard design
criteria, shall be accompanied by an energy analysis
comparison report. The report shall provide technical detail
on the two building and system designs and on the data used in
and resulting from the comparative analysis to verify that
both the analysis and the designs meet the criteria of Chapter
4 of this Code.
AMENDATORY SECTION(Amending WSR 05-01-013, filed 12/2/04,
effective 7/1/05)
WAC 51-11-1454
Pool covers.
Heated pools shall be
equipped with a vapor retardant pool cover on or at the water
surface. Pools heated to more than 90 degrees F shall have a
pool cover with a minimum insulation value of R-12.
Unitary Air Conditioners and Condensing Units, Electrically Operated, Minimum Efficiency Requirements
| Equipment Type | Size Category | Sub-Category or Rating Condition | Minimum Efficiencyb | Test Procedurea |
| Air Conditioners, Air Cooled | < 65,000 Btu/h(( |
Split System | ARI 210/240 | |
| (( |
10.0 SEER | |||
| On or After January 23, 2006d | (( |
|||
| Single Package | ||||
| (( |
9.7 SEER | |||
| On or After January 23, 2006d | (( |
|||
| ≥ 65,000 Btu/h and < 135,000 Btu/h |
Split System and Single Package |
10.3 EERc | ||
| ≥ 135,000 Btu/h and < 240,000 Btu/h |
Split System and Single Package |
9.7 EERc | ARI 340/360 | |
| ≥ 240,000 Btu/h and < 760,000 Btu/h |
Split System and Single Package |
9.5 EERc 9.7 IPLVc |
||
| ≥ 760,000 Btu/h | Split System and Single Package |
9.2 EERc 9.4 IPLVc |
||
| Through-the-Wall, Air Cooled | < 30,000 Btu/h(( |
Split System | ARI 210/240 | |
| (( |
10.0 SEER | |||
| On or After January 23, 2006d | 10.9 SEER | |||
| Single Package | ||||
| (( |
9.7 SEER | |||
| On or After January 23, 2006d | 10.6 SEER | |||
| (( |
||||
| Air Conditioners, Water and Evaporatively Cooled | < 65,000 Btu/h | Split System and Single Package |
12.1 EER | ARI 210/240 |
| ≥ 65,000 Btu/h and < 135,000 Btu/h |
Split System and Single Package |
11.5 EERc | ||
| ≥ 135,000 Btu/h and ≤ 240,000 Btu/h |
Split System and Single Package |
11.0 EERc | ARI 340/360 | |
| > 240,000 Btu/h | Split System and Single Package |
11.0 EERc 10.3 IPLVc |
||
| Condensing Units, Air Cooled | ≥ 135,000 Btu/h | 10.1 EER 11.2 IPLV |
ARI 365 | |
| Condensing Units, Water or Evaporatively Cooled | ≥ 135,000 Btu/h | 13.1 EER 13.1 IPLV |
||
| a Reserved. b IPLVs are only applicable to equipment with capacity modulation. c Deduct 0.2 from the required EERs and IPLVs for units with a heating section other than electric resistance heat. d Date of manufacture for single-phase air-cooled air-conditioners < 65,000 Btu/h (( |
||||
Unitary and Applied Heat Pumps, Electrically Operated, Minimum Efficiency Requirements
| Equipment Type | Size Category | Sub-Category or Rating Condition | Minimum Efficiencyb | Test Procedurea |
| Air Cooled, (Cooling Mode) | < 65,000 Btu/h(( |
Split System | ARI 210/240 | |
| (( |
10.0 SEER | |||
| On or After January 23, 2006d | (( |
|||
| Single Package | ||||
| (( |
9.7 SEER | |||
| On or After January 23, 2006d | (( |
|||
| ≥ 65,000 Btu/h and < 135,000 Btu/h |
Split System and Single Package |
10.1 EERc | ||
| ≥ 135,000 Btu/h and < 240,000 Btu/h |
Split System and Single Package |
9.3 EERc | ARI 340/360
|
|
| ≥ 240,000 Btu/h | Split System and Single Package |
9.0 EERc 9.2 IPLVc |
||
| Through-the-Wall (Air Cooled, Cooling Mode) | < 30,000 Btu/h(( |
Split System | ARI 210/240 | |
| (( |
10.0 SEER | |||
| On or After January 23, 2006d | 10.9 SEER | |||
| Single Package | ||||
| (( |
9.7 SEER | |||
| On or After January 23, 2006d | 10.6 SEER | |||
| (( |
||||
| Water-Source (Cooling Mode) |
< 17,000 Btu/h | 86°F Entering Water | 11.2 EER | ARI/ISO-13256-1 |
| ≥ 17,000 Btu/h and < 65,000 Btu/h |
86°F Entering Water | 12.0 EER | ARI/ISO-13256-1 | |
| ≥ 65,000 Btu/h and < 135,000 Btu/h |
86°F Entering Water | 12.0 EER | ARI/ISO-13256-1 | |
| Groundwater-Source (Cooling Mode) | < 135,000 Btu/h | 59°F Entering Water | 16.2 EER | ARI/ISO-13256-1 |
| Ground Source (Cooling Mode)
|
< 135,000 Btu/h | 77°F Entering Water | 13.4 EER | ARI/ISO-13256-1 |
| Air Cooled (Heating Mode) |
< 65,000 Btu/h(( (Cooling Capacity) |
Split System | ARI 210/240 | |
| (( |
6.8 HSPF | |||
| On or After January 23, 2006d | (( |
|||
| Single Package | ||||
| (( |
6.6 HSPF | |||
| On or After January 23, 2006d | (( |
|||
| ≥ 65,000 Btu/h and < 135,000 Btu/h (Cooling Capacity) |
47°F db/43°F wb
Outdoor Air 17°F db/15°F wb Outdoor Air |
3.2 COP
|
||
| ≥ 135,000 Btu/h (Cooling Capacity) |
47°F db/43°F wb
Outdoor Air 17°F db/15°F wb Outdoor Air |
3.1 COP
|
ARI 340/360
|
|
| Through-the-Wall (Air Cooled, Heating Mode) | < 30,000 Btu/h(( |
Split System | ARI 210/240 | |
| (( |
6.8 HSPF | |||
| On or After January 23, 2006d | 7.1 HSPF | |||
| Single Package | ||||
| (( |
6.6 HSPF | |||
| On or After January 23, 2006d | 7.0 HSPF | |||
| (( |
||||
| Water-Source (Heating Mode) |
< 135,000 Btu/h (Cooling Capacity) |
68°F Entering Water | 4.2 COP | ARI/ISO-13256-1 |
| Groundwater-Source (Heating Mode) |
< 135,000 Btu/h (Cooling Capacity) |
50°F Entering Water | 3.6 COP | ARI/ISO-13256-1 |
| Ground Source (Heating Mode) |
< 135,000 Btu/h (Cooling Capacity) |
32°F Entering Water | 3.1 COP | ARI/ISO-13256-1 |
| a Reserved. b IPLVs and part load rating conditions are only applicable to equipment with capacity modulation. c Deduct 0.2 from the required EERs and IPLVs for units with a heating section other than electric resistance heat. d Date of manufacture for single-phase air-cooled heat pumps < 65,000 Btu/h (( |
||||
Water Chilling Packages, Minimum Efficiency Requirements
| Equipment Type | Size Category | Sub-Category or Rating Condition | Minimum Efficiencyb |
Test Procedurea |
| Air Cooled, With Condenser, Electrically Operated |
All Capacities | 2.80 COP 3.05 IPLV |
ARI 550/590 | |
| Air Cooled, Without Condenser, Electrically Operated |
All Capacities | 3.10 COP 3.45 IPLV |
||
| Water Cooled, Electrically
Operated, Positive
Displacement (Reciprocating) |
All Capacities | 4.20 COP 5.05 IPLV |
ARI 550/590 | |
| Water Cooled, Electrically Operated, Positive Displacement (Rotary Screw and Scroll) |
< 150 Tons | 4.45 COP 5.20 IPLV |
ARI 550/590 | |
| ≥ 150 Tons and < 300 Tons |
4.90 COP 5.60 IPLV |
|||
| ≥ 300 Tons | 5.50 COP 6.15 IPLV |
|||
| Water Cooled, Electrically Operated, Centrifugal | < 150 Tons | 5.00 COP 5.25 IPLV |
ARI 550/590 | |
| ≥ 150 Tons and < 300 Tons |
5.55 COP 5.90 IPLV |
|||
| ≥ 300 Tons | 6.10 COP 6.40 IPLV |
|||
| Air Cooled Absorption Single Effect |
All Capacities | 0.60 COP |
|
|
| Water Cooled Absorption Single Effect |
All Capacities | 0.70 COP | ||
| Absorption Double Effect, Indirect-Fired |
All Capacities | 1.00 COP 1.05 IPLV |
ARI 560 | |
| Absorption Double Effect, Direct-Fired |
All Capacities | 1.00 COP 1.00 IPLV |
||
| a Reserved. b The chiller equipment requirements do not apply for chillers used in low temperature applications where the design leaving fluid temperature is less than or equal to 40°F. |
||||
Packaged Terminal Air Conditioners, Packaged Terminal Heat Pumps, Room Air Conditioners, and Room Air Conditioner Heat Pumps, Electrically Operated, Minimum Efficiency Requirements
| Equipment Type | Size Category (Input) | Sub-Category or Rating Condition | Minimum Efficiencyb |
Test Procedurea |
| PTAC (Cooling Mode) New Construction |
All Capacities | 95°F db Outdoor Air | 12.5 - (0.213 x Cap/1000)b EER |
|
| PTAC (Cooling Mode) Replacementsc | All Capacities | 95°F db Outdoor Air | 10.9 - (0.213 x Cap/1000)b EER | ARI 310/380 |
| PTHP (Cooling Mode) New Construction |
All Capacities | 95°F db Outdoor Air | 12.3 - (0.213 x Cap/1000)b EER | |
| PTHP (Cooling Mode) Replacementsc |
All Capacities | 95°F db Outdoor Air | 10.8 - (0.213 x Cap/1000)b EER | |
| PTHP (Heating Mode) New Construction |
All Capacities |
|
3.2 - (0.026 x Cap/1000)b COP | |
| PTHP (Heating Mode) Replacementsc |
All Capacities | 2.9 - (0.026 x Cap/1000)b COP |
|
|
| SPVAC (Cooling Mode) | All Capacities | 95°F db/75°F wb Outdoor Air | 8.6 EER | ARI-390 |
| SPVHP (Cooling Mode) | All Capacities | 95°F db/75°F wb Outdoor Air | 8.6 EER | |
| SPVAC (Heating Mode) | All Capacities | 47°F db/43°F wb Outdoor Air | 2.7 COP | |
| Room Air Conditioners, with Louvered Sides | < 6,000 Btu/h | 9.7 EER | ANSI/AHAM RAC-1 | |
| ≥ 6,000 Btu/h and < 8,000 Btu/h |
9.7 EER | |||
| ≥ 8,000 Btu/h and < 14,000 Btu/h |
9.8 EER | |||
| ≥ 14,000 Btu/h
and < 20,000 Btu/h |
9.7 EER | |||
| ≥ 20,000 Btu/h | 8.5 EER | |||
| Room Air Conditioners, without Louvered Sides | < 8,000 Btu/h | 9.0 EER | ||
| ≥ 8,000 Btu/h and < 20,000 Btu/h |
8.5 EER | |||
| ≥ 20,000 Btu/h | 8.5 EER | |||
| Room Air Conditioner Heat Pumps with Louvered Sides | < 20,000 Btu/h | 9.0 EER | ||
| ≥ 20,000 Btu/h | 8.5 EER | |||
| Room Air Conditioner Heat Pumps without Louvered Sides | < 14,000 Btu/h | 8.5 EER | ||
| ≥ 14,000 Btu/h | 8.0 EER | |||
| Room Air Conditioner, Casement Only | All Capacities | 8.7 EER | ||
| Room Air Conditioner, Casement –Slider | All Capacities | 9.5 EER | ||
| a Reserved. b Cap means the rated cooling capacity of the product in Btu/h. If the unit's capacity is less than 7000 Btu/h, use 7000 Btu/h in the calculation. If the unit's capacity is greater than 15,000 Btu/h, use 15,000 Btu/h in the calculation. c Replacement units must be factory labeled as follows: "MANUFACTURED FOR REPLACEMENT APPLICATIONS ONLY; NOT TO BE INSTALLED IN NEW CONSTRUCTION PROJECTS." Replacement efficiencies apply only to units with existing sleeves less than 16-in. high and less than 42-in. wide. d Casement room air conditioners are not separate product classes under current minimum efficiency column. e New room air conditioner standards, covered by NAECA became effective October 1, 2000. |
||||
Warm Air Furnaces and Combination Warm Air Furnaces/Air-Conditioning Units, Warm Air Duct Furnaces and Unit Heaters, Minimum Efficiency Requirements
| Equipment Type | Size Category (Input) | Sub-Category or Rating Condition | Minimum Efficiencyb | Test Procedurea |
| Warm Air Furnace, Gas-Fired |
< 225,000 Btu/h (66 kW) |
78% AFUE or 80% Etc |
DOE 10 CFR Part 430 or ANSI Z21.47 |
|
| ≥ 225,000 Btu/h (66 kW) |
Maximum Capacityc
|
80% Ecf | ANSI Z21.47 | |
| Warm Air Furnace, Oil-Fired |
< 225,000 Btu/h (66 kW) |
78% AFUE or
|
DOE 10 CFR Part
430 or UL 727 |
|
| ≥ 225,000 Btu/h (66 kW) |
Maximum Capacityb
|
81% Etg ____
|
UL 727 | |
| Warm Air Duct Furnaces, Gas-Fired |
All Capacities | Maximum Capacityb
|
80% Ece ____
|
ANSI Z83.9 |
| Warm Air Unit Heaters, Gas-Fired |
All Capacities | Maximum Capacityb
|
80% Ece ____
|
ANSI Z83.8
|
| Warm Air Unit Heaters, Oil-Fired |
All Capacities | Maximum Capacityb
|
80% Ece ____
|
UL 731 |
| a Reserved. b Minimum and maximum ratings as provided for and allowed by the unit's controls. c Combination units not covered by NAECA (3-phase power or cooling capacity greater than or equal to 65,000 Btu/h [19 kW]) may comply with either rating. d Et = Thermal efficiency. See test procedure for detailed discussion. e Ec = Combustion efficiency (100% less flue losses). See test procedure for detailed discussion. f Ec = Combustion efficiency. Units must also include an IID, have jacket losses not exceeding 0.75% of the input rating, and have either power venting or a flue damper. A vent damper is an acceptable alternative to a flue damper for those furnaces where combustion air is drawn from the conditioned space. g Et = Thermal efficiency. Units must also include an IID, have jacket losses not exceeding 0.75% of the input rating, and have either power venting or a flue damper. A vent damper is an acceptable alternative to a flue damper for those furnaces where combustion air is drawn from the conditioned space. |
||||
Boilers, Gas- and Oil-Fired, Minimum Efficiency Requirements
| Equipment Typef | Size Category | Sub-Category or Rating Condition | Minimum Efficiencyb | Test Procedure |
| Boilers, Gas-Fired | < 300,000 Btu/h | Hot Water | 80% AFUE | DOE 10 CFR Part 430 |
| Steam | 75% AFUE | |||
| ≥ 300,000 Btu/h and ≤ 2,500,000 Btu/h | Maximum Capacityb | 75% Et | H.I. Htg Boiler Std |
|
| > 2,500,000 Btu/hf | Hot Water | 80% Ec | ||
| > 2,500,000 Btu/hf | Steam | 80% Ec | ||
| Boilers, Oil-Fired | < 300,000 Btu/h | 80% AFUE | DOE 10 CFR Part 430 |
|
| ≥ 300,000 Btu/h and ≤ 2,500,000 Btu/h | Maximum Capacityb | 78% Et | H.I. Htg Boiler Std |
|
| > 2,500,000 Btu/hf | Hot Water | 83% Ec | ||
| > 2,500,000 Btu/hf | Steam | 83% Ec | ||
| Oil-Fired (Residual) | ≥ 300,000 Btu/h
and ≤ 2,500,000 Btu/h |
Maximum Capacityb | 78% Et | H.I. Htg Boiler Std |
| > 2,500,000 Btu/hf | Hot Water | 83% Ec | ||
| > 2,500,000 Btu/hf | Steam | 83% Ec | ||
| a Reserved. b Minimum and maximum ratings as provided for and allowed by the unit's controls. c Ec = Combustion efficiency (100% less flue losses). See reference document for detailed information. d Et = Thermal efficiency. See reference document for detailed information. e Alternate test procedures used at the manufacturer's option are ASME PTC-4.1 for units over 5,000,000 Btu/h input, or ANSI Z21.13 for units greater than or equal to 300,000 Btu/h and less than or equal to 2,500,000 Btu/h input. f These requirements apply to boilers with rated input of 8,000,000 Btu/h or less that are not packaged boilers, and to all packaged boilers. Minimum efficiency requirements for boilers cover all capacities of packaged boilers. |
||||
Performance Requirements for Heat Rejection Equipment
| Equipment Type | Total System Heat Rejection Capacity at Rated Conditions | Sub-Category or Rating Condition | Minimum Efficiencyb | Test Procedurec |
| Propeller or Axial Fan Cooling Towers | All | 95°F (35°C) Entering Water 85°F (29°C) Leaving Water 75°F (24°C) wb Outdoor Air |
≥38.2 gpm/hp | CTI ATC-105 and CTI STD-201 |
| Centrifugal Fan Cooling Towers | All | 95°F (35°C) Entering Water 85°F (29°C) Leaving Water 75°F (24°C) wb Outdoor Air |
≥ 20.0 gpm/hp | CTI ATC-105 and CTI STD-201 |
| Air Cooled Condensers | All | 125°F (52°C) Condensing
Temperature R22 Test Fluid 190°F (88°C) Entering Gas Temperature 15°F (8°C) Subcooling 95°F (35°C) Entering Drybulb |
≥176,000 Btu/h•hp | ARI 460 |
| a For purposes of this table, cooling tower performance is defined as the maximum flow rating of the tower divided
by the fan nameplate rated motor power. b For purposes of this table air-cooled condenser performance is defined as the heat rejected from the refrigerant divided by the fan nameplate rated motor power. c Reserved. |
||||
TABLE 14-4
Energy Efficient Electric Motors
Minimum Nominal Full-Load Efficiency
| Open Motors | Closed Motors | |||||
| Synchronous Speed (RPM) |
3,600 | 1,800 | 1,200 | 3,600 | 1,800 | 1,200 |
| HP | Efficiency | Efficiency | Efficiency | Efficiency | Efficiency | Efficiency |
| 1.0 | - | 82.5 | 80.0 | 75.5 | 82.5 | 80.0 |
| 1.5 | 82.5 | 84.0 | 84.0 | 82.5 | 84.0 | 85.5 |
| 2.0 | 84.0 | 84.0 | 85.5 | 84.0 | 84.0 | 86.5 |
| 3.0 | 84.0 | 86.5 | 86.5 | 85.5 | 87.5 | 87.5 |
| 5.0 | 85.5 | 87.5 | 87.5 | 87.5 | 87.5 | 87.5 |
| 7.5 | 87.5 | 88.5 | 88.5 | 88.5 | 89.5 | 89.5 |
| 10.0 | 88.5 | 89.5 | 90.2 | 89.5 | 89.5 | 89.5 |
| 15.0 | 89.5 | 91.0 | 90.2 | 90.2 | 91.0 | 90.2 |
| 20.0 | 90.2 | 91.0 | 91.0 | 90.2 | 91.0 | 90.2 |
| 25.0 | 91.0 | 91.7 | 91.7 | 91.0 | 92.4 | 91.7 |
| 30.0 | 91.0 | 92.4 | 92.4 | 91.0 | 92.4 | 91.7 |
| 40.0 | 91.7 | 93.0 | 93.0 | 91.7 | 93.0 | 93.0 |
| 50.0 | 92.4 | 93.0 | 93.0 | 92.4 | 93.0 | 93.0 |
| 60.0 | 93.0 | 93.6 | 93.6 | 93.0 | 93.6 | 93.6 |
| 75.0 | 93.0 | 94.1 | 93.6 | 93.0 | 94.1 | 93.6 |
| 100.0 | 93.0 | 94.1 | 94.1 | 93.6 | 94.5 | 94.1 |
| 125.0 | 93.6 | 94.5 | 94.1 | 94.5 | 94.5 | 94.1 |
| 150.0 | 93.6 | 95.0 | 94.5 | 94.5 | 95.0 | 95.0 |
| 200.0 | 94.5 | 95.0 | 94.5 | 95.0 | 95.0 | 95.0 |
TABLE 14-5
Duct Insulation
| Duct Type | Duct Location | Insulation R-Value |
Other Requirements |
| Supply, Return | Not within conditioned space: On exterior of building, on roof, in attic, in enclosed ceiling space, in walls, in garage, in crawl spaces | R-7 | Approved weather proof barrier |
| Outside air intake | Within conditioned space | R-7 | See Section 1414.2 |
| Supply, Return, Outside air intake | Not within conditioned space: in concrete, in ground | R-5.3 | |
| Supply with
supply air
temperature
< 55°F or > 105°F |
Within conditioned space | R-3.3 |
| Note: | Requirements apply to the duct type listed, whether heated or mechanically cooled. Mechanically cooled ducts requiring insulation shall have a vapor retarder, with a perm rating not greater than 0.5 and all joints sealed. |
TABLE 14-6
Minimum Pipe Insulation (inches)1
| Fluid Design Operating Temp. Range, °F |
Insulation Conductivity | Nominal Pipe Diameter (in.) | ||||||
| Conductivity Range Btu•in. / (h•ft2•°F) |
Mean Rating Temp. °F |
Runouts2 up to 2 |
1
and less |
> 1 to 2 | > 2 to 4 | > 4 to 6 | > 6 | |
| Heating systems (Steam, Steam Condensate[,] and Hot water) | Nominal Insulation Thickness | |||||||
| Above 350 251-350 201-250 141-200 105-140 |
0.32-0.34 0.29-0.31 0.27-0.30 0.25-0.29 0.24-0.28 |
250 200 150 125 100 |
1.5 1.5 1.0 0.5 0.5 |
2.5 2.0 1.5 1.5 1.0 |
2.5 2.5 1.5 1.5 1.0 |
3.0 2.5 2.0 1.5 1.0 |
3.5 3.5 2.0 1.5 1.5 |
3.5 3.5 3.5 1.5 1.5 |
| Domestic and Service Hot Water Systems | ||||||||
| 105 and Greater | 0.24-0.28 | 100 | 0.5 | 1.0 | 1.0 | 1.5 | 1.5 | 1.5 |
| Cooling Systems (Chilled Water, Brine[,] and Refrigerant) | ||||||||
| 40-55 Below 40 |
0.23-0.27 0.23-0.27 |
75 75 |
0.5 1.0 |
0.5 1.0 |
0.75 1.5 |
1.0 1.5 |
1.0 1.5 |
1.0 1.5 |
| 1. | Alternative Insulation Types. Insulation thicknesses in Table 14-6 are based on insulation with thermal conductivities within the range listed in Table14-6 for each fluid operating temperature range, rated in accordance with ASTM C 335-84 at the mean temperature listed in the table. For insulation that has a conductivity outside the range shown in Table 14-6 for the applicable fluid operating temperature range at the mean rating temperature shown (when rounded to the nearest 0.01 Btu•in./(h•ft2•°F)), the minimum thickness shall be determined in accordance with the following equation: |
| T = PR[(1 + t/PR)K/k - 1] |
| Where |
| T = | Minimum insulation thickness for material with conductivity K, inches. |
| PR = | Pipe actual outside radius, inches. |
| t = | Insulation thickness from Table 14-6, inches |
| K = | conductivity of alternate material at the mean rating temperature indicated in Table 14-6 for the applicable fluid temperature range, Btu•in./(h•ft2•°F) |
| k = | the lower value of the conductivity range listed in Table 14-6 for the applicable fluid temperature range, Btu •in./(h•ft2•°F) |
| 2. | Runouts to individual terminal units not exceeding 12 ft. in length. |
[Statutory Authority: RCW 19.27A.025, 19.27A.045 and chapters 19.27, 19.27A, and 34.05 RCW. 05-01-013, § 51-11-1454, filed 12/2/04, effective 7/1/05. Statutory Authority: RCW 19.27A.025, 19.27A.045. 02-01-112, § 51-11-1454, filed 12/18/01, effective 7/1/02; 01-03-010, § 51-11-1454, filed 1/5/01, effective 7/1/01; 98-03-003, § 51-11-1454, filed 1/8/98, effective 7/1/98. Statutory Authority: RCW 19.27A.025. 93-21-052, § 51-11-1454, filed 10/18/93, effective 4/1/94.]
Reviser's note: The brackets and enclosed material in the text of the above section occurred in the copy filed by the agency and appear in the Register pursuant to the requirements of RCW 34.08.040.