THERMOACOUSTIC POWER CONVERSION - ARPA-E Speaker... · THERMOACOUSTIC POWER CONVERSION. Robert...
Transcript of THERMOACOUSTIC POWER CONVERSION - ARPA-E Speaker... · THERMOACOUSTIC POWER CONVERSION. Robert...
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THERMOACOUSTIC POWER CONVERSION
Robert Keolian
(Penn State retired)
732 Holmes St, State College, PA, 16803-3621
[email protected] +1 814-441-8554
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SIMPLE THERMOACOUSTIC DEMONSTRATION ENGINE
• Older style “stack” based standing wave device• Style of state of the art 18 years ago
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ambient heat
thermo-acoustics
sound or electricity
cold heat
THERMOACOUSTIC REFRIGERATOR
ambient heat
thermo-acoustics
sound orelectricity
hot heat
THERMOACOUSTIC GENERATOR
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LOS ALAMOS NATIONAL LAB THERMOACOUSTIC-STIRLING ENGINE
THOT 730 °C 270 °CTAMBIENT 15 °C 15 °CEfficiency = W/QHOT 30% 10%COPR (efficiency relative to Carnot) 42% 21%
First high efficiency device, in 1999Developed up to 1700 W acoustic powerMostly standing wave in long tubeLong length due to low 80 Hz operating frequency
3.5 m
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INSIDE THE THERMOACOUSTIC-STIRLING ENGINE
cold heat exchanger
hot heat exchanger
regenerator
• Regenerator has pores much tighter than thermal penetration depth• Great thermal contact to gas, so little entropy generation and higher efficiency• Power is p1•U1/2, where p1 is acoustic pressure, U1 is volume velocity m3/s• Acoustic impedance is p1/U1• Want high impedance (high p1 low U1) for low viscous loss in regenerator• Standing wave in large tube provides that high impedance
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pLEFT pRIGHT
inertance (mass)compliance (spring)
HOW IT WORKS:
mag (pLEFT/pRIGHT)
frequencyfACOUSTIC
resonantenhancement
1
phase (pLEFT/pRIGHT)0º
-180º
-90º
Standing wave velocity node (null) and high p1 at regeneratorResidual high impedance traveling wave at regenerator amplifies soundHeat converted into acoustic workSimilar to free piston Stirling engine without the pistonsNo moving parts 6
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WIDE RANGE OF POWER DEMONSTRATED BY LANL
15 cm
61 cm1.8 m
Thermoacoustic-Stirling engines:
Acoustic power: 100 W 1 kW 50 kW TA efficiency: 23% 30% 25%
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LOS ALAMOS-PRAXAIR NATURAL GAS LIQUEFIER
• Burn some gas from oil well
• Heat creates 50 kW sound at engine
• Sound liquefies remaining gasat acoustic refrigerators
• 500 gal/day LNG
• No moving parts so unattended– it’s just properly shaped metal
• Truck LNG away when tanker full
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1 MW 10,000 GAL/DAY NATURAL GAS LIQUEFIER DREAM
... but couldn't quite make business case for it.9
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THERMOACOUSTIC-STIRLINGENGINE-GENERATORS
Achieved Performance Details:• Two, functional µCHP prototypes
constructed• Achieved 100-150 WELEC• Powered by external heat source• ηThermal-Electric = 7-12%• Low noise & vibration compared to free
piston Stirling engine• Prototype ≈ 80-120 lbs• Operating temps appropriate for
residential heating appliance• Low temperature onset achieved• Low quantity specific cost ≈ $60/W• Second prototype still under evaluation
13.4”
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Much more compact version of LANL engineHeat to electricityMicro combined heat and power for homes
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Basic TAC Schematic
Heat
Displacer
Diaphragm
Tube Spring
Regenerator
200μm500 Hz
ETALIM THERMAL ACOUSTIC CONVERTER
• Their previous type device, heat to electricity• Flexing rather than sliding parts• Newer devices are more acoustical
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ASTER THERMOACOUSTICS LOOPED GEOMETRY
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engine engine
enginechiller
Smaller pipes give higher impedance
25 kW solar powered building cooling
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“TRILLIUM” INLINE COMMERCIAL REFRIGERATOR
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yoke
motor
pistoncold heat exchangerregeneratorambient heat exchangerpiston
motor
cold manifoldambient manifold
yoke
Three Chart linear motors each 120° out of phaseThree thermal stages between motorsYoke connects bottom to topMotor mass gives high impedanceVibration balanced and quiet (LANL + PSU)
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CHART/QDRIVE LINEAR MOTOR
Commercially available very nice motorAvailable with Stirling style piston-cylinder clearance sealAbout 10 micron gap between piston and cylinderThat clearance gap difficult to hold at large piston size
14Stationary coil-stator structure Moving magnet structure
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INJECTION MOLDED FLEXURE SEAL
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Chart motor used without the Stirling style clearance sealPEEK flexure allows scalability to higher powerLow loss and fatigue endurance limit
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• Heat to electricity
• ~20% efficiency depending on hot temperature
• Multi-phase power from multiple stages
• Vibration balanced, quiet
• Piezoelectric alternators:– No pistons. – Compact, scalable.
TA PIEZOELECTRIC INLINE GENERATOR
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DOE-Volvo Powertrain truckwaste heat recovery project
34"
Acoustic Heat Engine:cold heat exchangerregeneratorhot heat exchanger
Piezoelectric Alternator:piezoelectric elements
circulating acousticpower in helium gas
hot exhaust flow
86 cm
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HOW IT WORKS
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electricity outdiaphragm power
sound outto next stage
cool water in
rejectheat
warm water outcold heat exchanger
regeneratorhot heat exchanger
hotexhaust
in
warmexhaust
out
sound in
amplifiedsound
heat heat
Downward traveling wave is amplified as it transports heat upwardFlexing diaphragm collects acoustic power and stresses piezoelectric elements at perimeterDiaphragm is acoustic mass that makes high impedance at regeneratorA way to scale up to higher powers without clearance seals
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PIEZOELECTRIC ALTERNATOR
Works! But produced only 37 W before some piezo stacks worked out of their supports and broke
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ASTER THERMOACOUSTICS BIDIRECTIONAL TURBINE
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Another interesting way to scale up powerAcoustical flow in either direction
spins turbine in same directionGoing for 10 kW
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HEAT EXCHANGERS ARE A LIMIT TO POWER DENSITY
From the LANL natural gas liquefier:
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Too many individually welded ¼" tubesDifferent groups have favorite ways of making better heat exchangersBetter power density with smaller feature sizeHeat exchangers can cost too muchActive research area
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• Energy loss mechanisms:– regenerator thermal-viscous losses– transducer losses– complex set of losses at heat exchangers (perhaps the least understood)– some configurations sensitive to “streaming” (DC gas flow driven by sound)– not everything is fully understood
• The physics is mostly there, but engineering is technically difficult– inefficiencies creep in– maddeningly huge design parameter space– thermal expansion stresses– fatigue stresses (need infinite fatigue life)– pressure vessels are a pain– machines don't always work as planned
• Competing technology is pretty good– business case for TA can often be made, but application may be niche
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THE CHALLENGES
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• Believe economic power range is around 500 W – 500 kW– simpler than steam or organic Rankine– often better efficiency and lower cost than thermoelectrics
• Because of inert gas working fluid, can design for wide range of temperatures—cryogenic to red hot
• Happy to use waste heat
• Some good advantages:– robust– simple– low maintenance– quiet– compact– good efficiency– lowish cost
• Rough rule of thumb: around 35% – 45% of Carnot efficiency should be possible, depending on competing tradeoffs chosen (size, weight, cost, ...)– DeltaEC program from LANL is pretty good at predicting performance
THE OPPORTUNITY
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• Better performing but cheaper heat exchangers
• Better, cheaper transducers (motors, alternators, alternatives)
• Find and demonstrate clever applications
• Lower costs, simpler fabrication techniques, commercialization
KEY PROBLEMS TO BE SOLVED
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Extra Slides
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PENN STATE – BEN&JERRY'S “BELLOWS-BOUNCE” FREEZER
Performance• 120 W cooling capacity• -20 °C load temp• 19% of Carnot
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PIEZOELECTRIC ALTERNATOR WAVEFORMS
Good waveforms showing expected frequency doubling, while giving 21 W:
Piezo Voltage
Piezo Current
Pressure abovediaphragm
Pressure belowdiaphragm
Bad waveforms also happen.
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TRILLIUM BRAZED ALUMINUM HEAT EXCHANGER
• Brazed aluminum microchannel tubes with 800 µm amplitude corrugated fins
• 84 µm hydraulic radius rh on helium side.
• Regenerator-like pores for low SGEN and effectiveness ≈ 1
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TRILLIUM WOUND KAPTON REGENERATOR
Manufactured by Cool Energy, Inc.
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THERMOACOUSTIC STIRLING ENGINE CYCLE
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THERMOACOUSTIC STIRLING REFRIGERATION CYCLE