Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of...
Transcript of Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of...
![Page 1: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/1.jpg)
1
Thermoelectric Conversion of Exhaust Gas Waste Heat
into Usable Electricity
Gregory P. Meisner General Motors Global Research & Development
2011 Directions in Engine-Efficiency and Emissions Research (DEER) Conference
Detroit, Michigan October 5, 2011
![Page 2: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/2.jpg)
2
• Acknowledgements • Introduction •Develop TE Generator (Waste Heat 1)
– TEG #1 (preliminary assembly and testing) – TEG #2 (Bi-Te modules) – TEG #3 (Skutterudite and Bi-Te modules)
•Develop Cost-Effective TEG (Waste Heat 2) • Summary
Outline
![Page 3: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/3.jpg)
3
GM Global Research & Development: Researchers: Jim Salvador Jihui Yang (now at U of Washington) Mike Reynolds Jung Cho
Zuxin Ye Engineering Operations: Kevin Rober John Manole Gov. Contracts & Management: Ed Gundlach
Rick Leach Amanda Demitrish Jan Herbst Mark Verbrugge GM Global Powertrain & Engineering: Joshua Cowgill Jennifer Stanek Stuart Smith
External R & D Partners: Marlow Industries Oak Ridge National Laboratory Future Tech (Francis Stabler) Shanghai Institute of Ceramics University of Michigan University of South Florida Brookhaven National Laboratory Michigan State University University of Nevada, Las Vegas General Electric Global Research Heat Technology, Inc Emcon (Faurecia)
Acknowledgements U.S. Department of Energy
John Fairbanks (DOE), Carl Maronde (NETL)
![Page 4: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/4.jpg)
4
• Achieve improvement in fuel economy (FE) without increasing emissions using thermoelectrics (TEs)
• Demonstrate commercial viability of advanced TE technology for automotive applications
Waste Heat 1: – Incorporate new advanced TE materials into operational devices &
systems (model, design, fabricate, install a TE generator) – Integrate advanced TE generator device with vehicle electrical system – Verify device & system performance under operating conditions
Directed specifically toward reducing petroleum usage for transportation by increasing fuel efficiency via waste heat recovery using advanced thermoelectric technology. Waste Heat 1 started in 2005, supported by United States Department of Energy Vehicle Technologies Program.
Introduction
![Page 5: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/5.jpg)
5
• Waste Heat 1: Chevrolet Suburban demonstration vehicle: − Large amount of heat at high T, adequate cooling capacity of engine coolant system − Large space for TEG, relatively simple vehicle modification needed for installation − Weight impact small because of large vehicle weight
• Optimize TEG design for available space and cost of TE materials • Construct prototype TEG for advanced TE technology R&D and to
demonstrate viability of TEGs for automotive applications
Introduction
5
![Page 6: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/6.jpg)
6
Introduction
Waste Heat 1: Demonstration Vehicle
6
![Page 7: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/7.jpg)
7
Heat Exchanger Design:
Waste Heat 1: TE Module Design: Identify primary module design variables Examine effect on primary output variables:
(1) Power output, (2) Cost, (3) Thermo-mechanical durability
TEG Design: Program metric: $/Watt
Introduction
![Page 8: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/8.jpg)
8
• Fabricate & assemble prototypes: TEGs #1 & #2 – Incorporate off-the-shelf Bi-Te TE modules
• Execute vehicle modifications and integration – Develop control systems for T and back pressure management – Modify exhaust system, install bypass valve – Integrate TEG into vehicle electrical system (dc/dc converter)
• Test TEGs on demonstration vehicle – Install in exhaust system, verify functions of TEG systems
and vehicle controls and integration – Evaluate temperature control (bypass valve) and
TEG output during vehicle operation – Assess performance of TEG: Output voltages,
temperature profile, power output
Waste Heat 1:
F M R
L
C
R
![Page 9: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/9.jpg)
9
Bypass valve
Drive shaft
TEG #1 3 Bi-Te modules
![Page 10: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/10.jpg)
10
Substantial decrease in T along the length of the TEG:
250°C (Front) 178°C (Middle) 148°C (Rear)
Lateral variation: < 3°C
TEG #1
TE module open circuit voltages are consistent with 50°C smaller ∆T than measured between the heat exchanger and the coolant.
![Page 11: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/11.jpg)
11
Seven TE module series
(a)
42 Bi-Te modules
Front Center thermocouple on hot side of Bi-Te TE module
Front Left thermocouple on heat exchanger
TEG #2
![Page 12: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/12.jpg)
12
0
50
100
150
200
250
300
350
400
450
0 5 10 15 20 25 30
Tem
pera
ture
(°C
)
Time (Minutes)
TEG #2 Cold Start
Exhaust to TEGFront Left (on Heat Exchanger)Front Center (on hot side of TE module)Middle Center (on Heat Exchanger)Rear Center (on Heat Exchanger)Coolant
TEG #2
Temperature difference between hot side heat exchanger and hot side of TE module: ~ 35ºC
![Page 13: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/13.jpg)
13
Skutterudite Materials We synthesized a large quantity of skutterudite materials for TE modules for TEG #3 at GM R&D (Jim Salvador). Determined optimized process parameters for spark plasma sintering
Adjusted processing to eliminate center crack (a) and coring flaws (b).
Care was exercised to minimize flaw creation when slicing and dicing into TE legs.
TEG #3
(a) (b)
![Page 14: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/14.jpg)
14
Skutterudite Modules (Marlow Industries, Inc.)
TEG #3
![Page 15: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/15.jpg)
15
TEG #3
Hot side heat exchanger
![Page 16: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/16.jpg)
16
TEG #3 Bi-Te modules Skutterudite modules
Cold side heat exchanger Thermocouple Thermal insulation
![Page 17: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/17.jpg)
17
TEG #3
![Page 18: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/18.jpg)
18
TEG #3
![Page 19: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/19.jpg)
19
TEG #3
Waste Heat 1: Vehicle test drive and US06 drive cycle testing is underway; control parameters and algorithms are being optimized for best performance. Final results soon!
![Page 20: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/20.jpg)
20
Waste Heat 2: FINANCIAL ASSISTANCE
FUNDING OPPORTUNITY ANNOUNCEMENT
U. S. Department of Energy National Energy Technology Laboratory
FY 2011 Vehicle Technologies Program Wide Funding Opportunity Announcement
Funding Opportunity Number: DE-FOA-0000239 Area of Interest 6-- Thermoelectrics and Enabling Engine Technologies: Subtopic 6A: Solid State Thermoelectric Energy Conversion Devices “…achieve improved efficiency and reduced emissions in advanced combustion engines for passenger… vehicle applications through accelerated development of cost-competitive advanced second generation thermoelectric devices for vehicle applications…” This subtopic is for research and development projects that use thermoelectric (TE) devices to offer: a) A five (5) percent fuel economy improvement by direct conversion of engine waste heat to useful
electric power for light-duty vehicle application.
![Page 21: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/21.jpg)
21
Subtopic 6A: Solid State Thermoelectric Energy Conversion Devices:
“Development of Cost-Competitive Advanced Thermoelectric Generators for Direct Conversion of Vehicle Waste Heat into Useful Electrical Power” Project requirements: • Form a team involving suppliers, national labs, universities, and a vehicle OEMs • Develop, test, and demonstrate advanced TE devices • Document efficiency gains on an engine dynamometer and a full-scale vehicle • Demonstrate fuel economy improvement of 5% measured over the US06 cycle • Plan for independent confirmatory testing of hardware to verify performance • Conduct cost assessment to identify areas of technology change and their impact on product costs • Provide production cost analysis for 100k units/year including how costs will be reduced in manufacturing
GM has been awarded $8 M 4-year contract.
Waste Heat 2:
![Page 22: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/22.jpg)
22
Project Plan: • Select demonstration vehicle • Optimize TE materials and subsystems for module fabrication and performance
• TE material properties • Thermal and electrical Interfaces • Protection for long term durability
• Develop new cost-effective TEG system design for scaled-up manufacturability • Heat exchangers • Control algorithms • Vehicle integration • Electrical power conditioning
• Develop scaled-up synthesis, fabrication, and assembly processes • Conduct TEG subsystems bench testing for component performance & reliability • Vehicle drive cycle testing for fuel economy improvement assessment
Waste Heat 2:
![Page 23: Thermoelectric Conversion of Exhaust Gas Waste Heat · PDF fileThermoelectric Conversion of Exhaust Gas Waste Heat into Usable Electricity ... •Conduct TEG subsystems bench testing](https://reader034.fdocuments.net/reader034/viewer/2022042707/5a6ff51e7f8b9abb538b80ec/html5/thumbnails/23.jpg)
23
Waste Heat 1: • Prototype TEGs # 1 and #2 (Bi-Te modules) were assembled,
installed, and tested on the demonstration vehicle • Synthesized a large quantity of skutterudite material for TE module
fabrication for TEG #3 at GM R&D • Skutterudite modules were fabricated and assembled into TEG #3 • TEG #3 is installed in the demo vehicle. US06 testing is underway.
Waste Heat 2: • Awarded $8 M 4-year contract from USDOE for cost-effective TEG
development • Final terms being worked out with the US DOE and R&D partners • Work to start by 1/1/2012
Summary