coolcab truck thermal load reduction...– 1500w for typical heating – 20% improvement over...
TRANSCRIPT
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NREL is a national laboratory of the U.S. Department of Energy Office of Energy Efficiency and Renewable Energy operated by the Alliance for Sustainable Energy, LLC
CoolCab Truck Thermal Load ReductionProject ID: vssp_09_proc
DOE Vehicle Technologies Program Merit Review
Ken ProcSenior Project LeaderTesting and Analysis
May 19, 2009
This presentation does not contain any proprietary, confidential, or otherwise restricted information.
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Project Description
Varying thermal conditions inhibit the use of idle reduction
technologies.
Design efficient thermal management systems that keep the cab comfortable without the need for engine idling.
Thermal Comfort Evaluation
NREL infrared testing identified potential to reduce heating and cooling loads with improved insulation.
Solar Reflective Glazings
– 1500W for typical heating – 20% improvement over baseline– Reducing the load will enable idle reduction technologies– 838 million gallon savings potential with no idling
Trucks idle for driver comfort. Idling consumes more than $3 billion in fuel per year for
long-haul trucks.
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Timeline
Project Dates
Light-Duty Vehicle A/C Systems 1998-2007
Idle Reduction Technology Validations 2003-2006
Infrared Image Testing – Freightliner 2005
Truck Cabin Test – Volvo 2006
Truck Cabin Test – International 2007
Thermal Modeling 2008
HVAC Load Estimation Tool Development 2009
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• Funding– FY09 DOE funding: $500,000– FY08 DOE funding: $410,000– Prior funding (FY05-07) total: $240,000
Budget
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• Objectives– Investigate the potential to reduce truck cabin
thermal load through testing and analysis– Develop a tool to help predict HVAC load
reduction in truck tractor sleeper cabins
Objectives
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• Key Milestones– Engineering test report: Infrared image field test at
Schneider National, July 2005– Status report: CoolCab Testing with Volvo Truck,
September 2006– Interim report on CoolCab activity, August 2007– Presentation of results of industry meetings and
tool specifications, September 2008– SAE Paper: Thermal Load Reduction of Truck
Tractor Sleeper Cabins, October 2008
Milestones
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Barriers and Approach
• Barriers– Industry lacks key performance data on HVAC
loads and truck cabin insulation– Truck fleets operate on small profit margins and
are sensitive to purchase costs for equipment• Approach
– Work with industry to identify specific needs and development projects
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Insulation
IR Reflective Materials
Comfort Based Air Distribution
Advanced Seating – Low
Mass
Efficient HVAC
Equipment
Advanced Glazings or
Shades
Approach
CoolCab Advanced Technologies
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*>9.7°
*<5.4°
6.0
7.0
8.0
9.0
BaseSuper
Accomplishments
Infrared Image Test• Freightliner Trucks at Schneider National• Investigate potential for improving cab efficiency• Qualitative comparison
– Identify high heat loss areas– Note areas with greatest potential for improvement
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Accomplishments
CoolCab Testing with Volvo• Volvo truck at NREL for testing
– 77-inch sleeper cab – On-board technologies
• Objectives– Quantify truck cabin heat transfer– Identify potential improvements
• Approach– Co-heat tests to determine UA– Measure air exchange rate– Solar soak tests – Infrared imaging
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Accomplishments
CoolCab Testing with International• International truck at NREL
– ProStar sleeper cab tractor– Electric HVAC system with battery APU
• Objectives– Quantify truck cabin
heat transfer– Predict HVAC system
load requirements
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*>25.4°C
*<14.8°C
16.0
18.0
20.0
22.0
24.0
*>25.4°C
*<14.8°C
16.0
18.0
20.0
22.0
24.0
Summary of UA Test ResultsBase or Unmodified Case
Sleeper Curtain Closed
Arctic Curtain Closed
Windows Insulated
UA Test Truck 1
65 W/K -16% N/A -16%
UA Test Truck 2
51 W/K -21% -26% -14%
Accomplishments
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Accomplishments
Thermal Modeling• CFD Model
– Fluent CFD– Radtherm
• Validate with test data– Solar soak air temperatures predicted within 3ºC– Apply multiple configurations
• Model impact of enhanced thermal technologies– Baseline A/C case– Increased cab insulation
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Accomplishments
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Accomplishments
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HVAC Load Calculation Tool Concept• Physics-based model
– No meshing– Flexible geometry– Less time intensive– Excludes unnecessary detail – Easy to use
• Uses– Trade-off studies – Technology impact estimation
• Applications– Preliminary design– Focus more detailed CFD studies
Accomplishments
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Accomplishments
HVAC Load Calculation Tool – CoolCalc• Key input parameters
– Truck cab geometry– Material properties – Climatic conditions
• Outputs– Calculate loads – Estimate potential load
reduction
• Industry input to define requirements– Truck OEMs– Idle reduction technology manufacturers– 21st Century Truck
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CoolCalc Development• Truck testing and modeling
data• Industry Input
– Feedback from 21CT partners
– Future industry partner for validation
• Grow capabilities– Apply a suite of tools
• Load estimation: CoolCalc• Detailed flow analysis: CFD• Vehicle fuel consumption: PSAT• In-use validation: Fleet Test & Evaluation
Accomplishments
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CoolCalc
CFD Testing
Detailed Flow Analysis
Fuel Consumption
In-Use Validation
Load Estimation
Vehicle Modeling
Accomplishments
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CoolCalc Heat Transfer Solver – EnergyPlus• DOE/EERE buildings energy analysis/thermal load simulation
program• Released 1999 but dates back to BLAST and DOE-2, programs
developed in the 70s and 80s• Sixteen developers from national
labs, industry, and universities• Received a 2003 R&D 100 award• Capabilities
– Simultaneously solves building, HVAC system, and plant equipment
– Sub-hourly, user-defined time steps– Heat balance based solution– Transient heat conduction
• No GUI – text-file based
Accomplishments
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Other EnergyPlus Capabilites• A/C models• Controls• Scheduling
loads and equipment• Weather database
– 1,300 locations, many with typicalmean year data
– Limited real-time (hourly) data available
• Thermal comfort
Accomplishments
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CoolCalc Graphical User Interface (GUI)• SketchUp
– “3D for everyone” – Designed to be “intuitive, flexible, and easier to use”– Developed in 1998, acquired by Google in 2006
• Energy Design Plug-In (2008)– Developed at NREL– Creates EnergyPlus input files– Provides user interface
for EnergyPlus • Geometry• Material assignment• Run simulation • Result visualization
Accomplishments
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Concept Validation – Initial Test Case• Comparison to soak testing (2007)
– Geometry created using rough dimensions– Best guess assumptions– On site weather data used– Compared to experimental data
Accomplishments
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Accomplishments
Concept Validation – Air Temp. Comparison
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X
Concept Validation – Surface Temp. Comparison
Accomplishments
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Outside temperature Inside temperatures (hidden side wall)
Concept Validation – Surface Temp. Comparison
Accomplishments
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CoolCalc Development• Geometry
– Parametric cab creation– Manual modification
• Material property assignment– Thermal mass– Conductivity– Layered structures– LW and SW radiation properties
• A/C Settings– Thermostat– Percent recirculation
• Other– Air infiltration– Internal loads– Internal mass
• Link to vehicle fuel use model
Accomplishments
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Government• 21st Century Truck Partnership
Industry• Volvo• International• Freightliner• Schneider National• Caterpillar• Cummins• Webasto• Espar
Partners
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• Continue Development of CoolCalc– Working prototype of tool in FY09– Vehicle specific interface
• Toolbar interface• Base cab generation• A/C thermal calculation • Construction and material properties
• Application of prototype tool FY10– Model and predict HVAC thermal loads– Truck testing to measure HVAC loads– Validation of tool with truck data– Industry collaboration
Future Work
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Special thanks to:Lee SlezakAdvanced Vehicle Technology Analysis & EvaluationVehicle Technologies Program
For more information:Ken ProcNational Renewable Energy [email protected]
Contacts
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