Title: Proposed Changes to the RTFs Heat Pump Specifications
1Proposed Changes to the RTFs Heat Pump
Specifications
Impact on Estimated Deemed Savings and CR
Discount Program Credits
2PNW Climates Are Different Than That Used for ARI
Ratings
- ARI performance ratings (SEER HSPF) are based
on climates that do not match the Northwests. - Heating Zone 1 climate is warmer than the rating
location HSPF is higher than label - Heating Zones 2 3 climates are colder than the
rating location HSPF is lower than label - All of the Cooling Zones in NW has lower humidity
than the rating location SEER is lower than
label
3Climate Adjusted HSPF
4 Duct Leakage and Insulation Levels Have
Interactive Affects on System Efficiency
- Duct leakage and conductive losses reduce heat
pump capacity. - Duct leakage and conductive losses increase
buffer space temperatures. - As a result, duct location, duct leakage and
insulation levels must all be modeled to
determine overall duct system efficiency.
5Duct System Assumptions
- Four Duct Configurations
- Crawlspace Supply ducts 100 outside
conditioned space - ½ Basement - Supply ducts 50 outside conditioned
space - Full Basement - Supply ducts 100 inside
conditioned space - Manufactured Home - Supply ducts 100 outside
conditioned space - Three Levels of Leakage
- 10 - Base
- 7.5 - RTF
- 5 - PTCS
- Two Levels of Duct Insulation
- R-4 Base
- R-11 (R-8 installed) RTF PTCS
6Duct System Efficiency Adjusted HSPF All Ducts
Outside Conditioned Space
7Duct System Efficiency Adjusted HSPF gt 50
Ducts Outside Conditioned Space
8Duct System Efficiency Adjusted HSPF
Manufactured Home Supplies Outside Conditioned
Space
9Duct System Efficiency Adjusted HSPF All Ducts
Inside Conditioned Space
10Commissioning Heat Pumps Adjustments for
Improper Air Flow and Refrigerant Charge
- Field studies of heat pump and air conditioner
installations reveal - Over/Under Charging of Refrigerant
- Low air flow across evaporator coils
- RTF Specifications require
- Air flow verification using either flow plate or
temperature rise volt/amp methods - Refrigerant charge verification according to
manufacturers instructions - PTCS Specifications require
- Air flow verification using flow plate (TrueFlow)
- Refrigerant charge verification using
SubCool/SuperHeat in AC mode.
11Commissioning Adjusted HSPF
12Control Impact Assumptions
- Base Case Assumptions
- Combination Timer Defrost (20) Demand Defrost
(80) - Some (20) of systems have w/low ambient
temperature compressor cutouts - Some (20) systems have resistance backup tied to
first stage of heat pump - RTF Assumptions
- Demand Defrost Only
- Some (20) systems have outside thermostats which
limit backup above 35F - No resistance backup tied to first stage of
heat pump - PTCS Assumptions
- Demand Defrost Only
- All systems have outside thermostats which limit
backup above 35F
13Control Adjusted HSPF
14Cumulative Adjusted HSPF All Ducts Outside
Conditioned Space
15Cumulative Adjusted HSPF 50 Ducts Outside
Conditioned Space
16Cumulative Adjusted HSPF All Ducts Inside
Conditioned Space
17Cumulative Adjusted HSPF Manufactured Homes
All Supplies Outside Conditioned Space
18SEER Adjustment
- High performance air conditioning equipment is
designed to de-humidify by recovering latent
energy (heat of condensation) - ARI Test Conditions assume inside temperature of
80F and outside temperature of 82F and relative
humidity _at_100, 90 and 80 - Preliminary research appears to show that SEER
ratings, when adjusted for the PNW dry-summer
climate are about 65 of nameplate
19Other Factors That Are Changing RTFs Heat Pump
Savings
- Revised estimates of post-weatherization space
heating use - Reduced loads
- Revised estimate of air conditioning loads
- New estimates based on hourly modeling of
specific prototypes - Better calibration with metering studies for
space heating and cooling
20Pre1980 Construction Post Weatherization Forced
Air Furnace Space Heating Use
21Post79/Pre93 Construction Forced Air Furnace
Space Heating Use
22Post92 Construction Forced Air Furnace Space
Heating Use
23Revised Estimates of Air Conditioning Loads Are
Lower (e.g.,Pre1980 Construction)
24Revised Estimates of Air Conditioning Load Are
Lower (e.g., Post92 Construction)
25Some Revised Estimates of Air Conditioning Load
Are Higher and Lower (e.g.,Post79/Pre93
Construction)
26Overall Implications for CR Discount Values
- Difference Between PTCS Heat Pump (or CAC)
Installations Non-PTCS Installations
Increases - Difference between Non-PTCS Heat Pump (or CAC)
Installations and Baseline Installations
Decreases
27Air Source Heat Pump Savings for Pre1980 FAF w/o
CAC with PTCS
28Air Source Heat Pump Savings for Post79/Pre93 FAF
w/o CAC with PTCS
29Air Source Heat Pump Savings for Post1992 FAF w/o
CAC with PTCS
30Air Source Heat Pump Savings for Pre1980 FAF w/o
CAC with RTF Specification
31Air Source Heat Pump Savings for Post79/Pre93 FAF
w/o CAC with RTF Specifications
32Air Source Heat Pump Savings for Post1992 FAF w/o
CAC with RTF Specifications
33Air Source Heat Pump Savings for Pre1980 FAF w/o
CAC with PTCS vs. RTF Specifications
34Air Source Heat Pump Savings for Post79/Pre93 FAF
w/o CAC with PTCS vs. RTF Specifications
35Air Source Heat Pump Savings for Post1992 FAF w/o
CAC with PTCS vs. RTF Specifications
36City of Richland Savings Estimates
- Based on sub-metered data on 54 homes
- Average house size 2071 sq.ft.
- Average savings 5552 kWh/yr
- (2.7 kWh/sq.ft./yr)
- Average HSPF 8.24
- Un-reported Pre-conversion space conditioning use
and CAC system
37RTF Estimates Compared to City of Richlands
Analysis Heating Only Savings
38Recommendations
- Adopt revised deemed savings estimates for air
source heat pump conversions (and heat pump and
CAC efficiency upgrades) - Consider using kWh/sq.ft./yr as deemed unit
rather than kWh/yr/home - Revise assumptions in Heat Pump HSPF and CAC
SEER Tradeoff Calculator to match deemed
savings analysis