emerging technologies for cold weather residential heating€¦ · • reduced between 40% and 65%...
TRANSCRIPT
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Emerging Technologies for Cold Weather Residential Heating
Josh Quinnell & Ben Schoenbauer
Duluth Energy Design Conference February 22-24, 2017
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In accordance with the Department of Labor and Industry’s statute 326.0981, Subd. 11,
“This educational offering is recognized by the Minnesota Department of Labor and Industry as satisfying 1.5 hours of credit toward Building Officials and Residential Contractors continuing education requirements.”
For additional continuing education approvals, please see your credit tracking card.
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Agenda
• Learning Objectives • Cold Climate Air Source Heat Pump
• What is different? • Opportunity • Installation and operation • Preliminary results
• Transport Membrane Humidifier (TMH) • What is it? • Opportunity • Installation and operation • Preliminary results
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Learn about…
• A new retrofit device, TMH, to increase efficiency of residential standard efficiency furnaces
• The installed energy saving potential of TMH • The installation, optimization, and operation of a TMH for
residential furnaces • How air source heat pumps work and how the recent
improvements in their operation benefit cold climate operation
• The proper way to size, install, and operate a ASHP for optimal performance in a heating dominated climates
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Learn about…
• The energy savings potential for ASHPs, as well as the potential for offsetting the reliance on delivered fuels in areas where natural gas is unavailable
• The differences in ASHP installed performance compared to the manufacturer specified performance
• The applicability of both technologies to Minnesota’s housing stock and the process that can be used to determine where the best potential exists for each technology
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Acknowledgements
• These projects are supported in part by grants from the Minnesota Department of Commerce, Division of Energy Resources through a Conservation Applied Research and Development (CARD) program
• The heat pump project was also supported by Great River Energy and the Electric Power Research Institute
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www.mncee.org
Field Study of a Moisture and Heat Transfer Furnace Retrofit Device Cold Climate Air Source Heat Pump Field Assessment
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Cold Climate Air Source Heat Pump Field Assessment
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Cold Climate Air-Source Heat Pump?
• An ASHP uses a refrigerant system involving a compressor, condenser, and evaporator to absorb heat at one place and release it at another.
• Delivery of both heating and cooling via forced air distribution
• New generation systems can operate as low as 0 °F to -13 °F
• ASHPs have the potential to deliver energy and peak saving as well as reduce reliance on delivered fuels.
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Opportunity
• Winter of 2013/2014 saw delivered fuel shortages in MN • Delivered fuel expensive or unavailable • Compensation with electric resistance space heaters
• Market: • Delivered fuel are the primary space heating fuel for more than 40%
of homes in MN, IA, SD, ND (RECS, 2009) • Over 25% of Midwest homes rely on fuels other than natural gas for
space heating (RECS, 2009) • Over 47% of homes in the US rely on fuels other than natural gas for
space heating (RECS, 2009)
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• PrimaryHea*ngwithLP1• Metro,<4%• Outstate,upto40%
• PrimaryHeatSources2• U*litygas,67%• Electricity,16%• LP,10%• FuelOil,3%• Wood,3%
Source:Levenson-Faulk,Annie.2015.“PropaneConversionStrategies:EnergyAlterna*vesforMinnesotaUsersofPropaneGas.”St.Paul,MN:Legisla*veEnergyCommission
1U.S.CensusBureau.AmericanCommunitySurvey5-YearEs*mates-2009-20132U.S.CensusBureau.AmericanCommunitySurvey5-YearEs*mates-2010-2014
Opportunity - Minnesota
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Utilities and Rebates
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Study Overview
• Field Study • Install 6 ccASHP in a variety of MN residences • Monitor installed field performance of ASHP and backup
• Installed performance (COP, capacity, etc) • Installed energy savings vs backup • Customer satisfaction and delivered comfort
• Incorporate into CIP and Energy Efficiency Programs • Working with ACEEE and DER to look into the policy and program
implications of ccASHPs • Not covered in this talk, but updates will be available shortly at:
• mncee.org/heat_pumps
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Study Overview • Field Study
• 6 ccASHP in a variety of MN residences • 3 installed for the 2015-2016 heating
season • Monitor installed field performance of
ASHP and backup
• Incorporate into Conservation Improvement Program (CIP)
• Climate zones 6 & 7
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Installation
• Important Issues: • Equipment • Sizing • Operation • Integration with back-up systems
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Manufacturer Specified Performance
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System Design
TheOATforthesystemstoswitchtobackup:4ton~3F3ton~10F2ton~19F
Percentageofhea*ngloadmeetbyASHP:4ton~86%,3ton~77%2ton~60%
3°F
10°F
19°F
3ton
4ton
2ton
Househea3ngload
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Operation
• Switchover set point: • Ducted Systems: 10 degrees F • Ductless Systems: -13 degrees F
• Controls: • Ducted Systems: automated controls to bring up backup • Ductless Systems: manual action by homeowner
• Interaction with back-up systems • Ducted Systems: Integrated installs with shared controls • Ductless Systems: Separate systems
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Furnace Integration – Keep or Replace?
• Issues: • Air handler requires a multi-stage fan to achieve the full capability of
the ccASHPs • Furnace and heat pump require integrated controls
• Proposed Solutions: • New condensing furnace with control integration • New 80% AFUE with multi-stage fan with control integration • Retrofit existing system (future?) • Plenum electric resistance heater
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Instrumentation
1 2 3
4
5
6 7
811
12
13
14
15
PowerMeasurements:1)Outdoorunit2)Indoorunit3)Indoorfan4)Reversingvalve
Temperatures:5)SupplyAir6)ReturnAir7)Mechanicalareaambient8)Condi*onedspace
Addi*onal:9)Backupfuelconsump*on10)Deliveredairflow11)NOAAdata
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System COP vs OAT
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System COP vs Furnace runtime
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ASHP and Furnace Cycle Efficiency
• Without propane: • COPs 2.0 to 3.3
• Furnace Efficiency • 80%
• Freeze protection bringing some events down < 0.5
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ASHP Performance
• Rated COPs of 3.0-3.5 at 47 F
• COP observed
• 1.5-3.5 (site 1 & 2) • 1-3.5 (site 3)
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Can ASHP Meet Capacity?
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Example: Capacity on a 17 ⁰F day
At18:45OAT=15FHouseload=15,300Btu/hrASHPOutput=16,700Btu/hrASHPSupTemp=89FAirflow=734CFM
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Preliminary Results
• Compared to LP furnaces the ccASHPs • Reduced between 40% and 65% of site energy consumption • Reduced total heating costs 19% to 35% • On average ccASHP met 84% of the homes heating loads • Reduced propane consumption by around 60%, up to 89% at one site
• Compared to Electric Resistance Heat • Provided more efficient space heating (COP of 1.6, compared to 1.0) • Savings are largely dependent on usage and install location
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Conclusions
• Systems should sized for heating, typically results in 1-ton larger system that if sized for cooling
• With proper sizing ccASHPs are capable of meeting the loads in typical MN homes at or below 10 ⁰F outdoor temps.
• Preliminary results show ccASHP COPs of 1.5-3.5 and annual system COPs between 1.4 and 1.8.
• ccASHPs will reduce delivered fuel consumption enough to avoid costly winter refueling in most MN homes
• There is still room for improvement: • Reduce unnecessary back-up heating • Reduce upfront installation costs
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Field Study of a Moisture and Heat Transfer Furnace Retrofit Device
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Transport Membrane Humidifier (TMH)
• Furnace retrofit device
• Extracts heat and moisture from flue gas
• Preheats and humidifies return air
• Improves furnace efficiency by 12 - 15%
• Increases indoor humidity by ~3 - 7% RH
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Transport Membrane Humidifier (TMH)
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Opportunity
• Large Market: • ~800,000 80% efficiency units in Minnesota (EIA, 2009) • 50%+ of national market is standard efficiency (D+I, 2015) • High efficiency heating penetration still 20-30 years out, potentially
further as standard efficiency units maintain dominant market share
• High savings potential: • Hundreds of millions of dollars in MN • Billions of dollars nationally
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Furnace Age
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Minnesota Pilot
• Demonstrate performance
• Quantify humidity benefit
• Detail cost effectiveness
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Installation
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Installation
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Installation
h4 h3 h5 h2 AvgLabor-Min 11 9.5 11 7 10Labor-Max 16 10.5 13 8 12
0
5
10
15
20
25
30
h4 h3 h5 h2
Labo
r(Ho
urs)
Site(ChronologicalOrder)
Ductwork
Inspec*on
Coordina*on
Callback
Elec.Installa*on
Mech.Installa*on
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Installation
h4 h3 h5 h2 AvgMaterials-Cost $95$51$59$101$76Materials-Basic $288$153$178$306 $231Materialsw/Tuneup $397$262$287$306$313
050
100150200250300350
h4 h3 h5 h2
Materialcosts($
)
Site(ChronologicalOrder)
CondensatePump
PVCVen*ng
BVent
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Operation
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Instrumentation CharacterizationMeasurements
1 FurnaceAirflow2 HouseEnvelopeTightness3 SupplyandReturnDuctPressures
OngoingFurnaceMeasurements4 ReturnAirTemperatureandHumidity5 TMHTemperatureandHumidity6 TMHFlueGasTemperature(In)7 TMHFlueGasTemperature(Out)8 SupplyAirTemperature9 FurnaceRuntime10 SupplyAirCO&Alarm
OngoingHouseholdMeasurements11 CommonSpaceTemperature,Humidity,andWoodMoisture12 BasementSpaceTemperature,Humidity,andWoodMoisture13 AtticSpaceTemperature,Humidity,andWoodMoisture
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Preliminary Results
• TBD monitoring underway
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Preliminary Comfort IAQ / Results
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Indoor Humidity – Low RH Home
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Indoor Humidity – High RH Home
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Conclusions
• Project is demonstrating performance, quantifying changes in humidity, determining cost effectiveness
• Installation time is a few hours • Preliminary data shows an improvement in net system
efficiency between 12-14% • Preliminary data shows predictable increase in relative
humidity
• TMH retrofit is a viable alternative path for energy savings from ID furnaces
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www.mncee.org
Field Study of a Moisture and Heat Transfer Furnace Retrofit Device Cold Climate Air Source Heat Pump Field Assessment
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