Thermal Devices and Systems For Enhanced Energy Efficiency
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1 Thermal Devices and Systems For Enhanced Energy Efficiency Ravi Prasher, Ph.D. Program Director, ARPA-E 09/12/2011
2 US Energy Diagram Heat ~60% primary energy rejected as heat
3 Residential and Commercial Buildings Consume 40 Quads of Primary Energy Per Year Buildings use 72% of the U.S. electricity and 55% of the its natural gas Heating & cooling is ~50% of energy consumption By 2030, Business as usual : 16% growth in electricity demand and additional 200 GW of electricity ($25-50 Billion/yr) Source: LBNL Environmental Energy Technologies Division, 2009
4 Energy Supply Systems Fuel, F E Engine/ Electricity, E 1 Generator Set Cooling, C Fuel, F H Current System Architecture Waste Heat Heater/Boiler Efficiency % E 2 Air Conditioner Waste Heat Heating, H Power Load Energy Demand Cooling Electricity Heating Rate of Fuel Use, F = F E + F H Time
5 Integrated Energy Supply Systems: New Systems Architecture F E F H Engine/ Fuel Cell Heater/ Boiler Solar/Wind High Temp. Thermal Bus Thermal Storage Electrical Storage Power Electronics Geotherm Electrical Bus Air Conditioner/ Heat Pump Thermal Air conditioner H E Performance Goal: Minimize F by at least 25% Technical Challenge: Operating System (Software) & Sensors- Actuators (Hardware) for Optimal Operation Low Temp. Thermal Bus C Thermal Storage Extra heat/electricity can be used for purifying water
6 Humidity ratio Current Cooling Practice 90 o F, 90% RH Refrigeration Can we do this? Relative humidity = 100% 37 o F 55 o F, 50% RH Reheat Refrigeration Temperature
7 BEET-IT Target Primary Energy (kj/kg) Building cooling is responsible for ~5% of US energy consumption and CO 2 emissions Target Primary energy use Vapor compression Current systems Desiccants Theoretical limit = exergy COP_Vapor-compression T amb = 90 o F, RH = 0.9 T supply = 55 o F, RH = 0.5 Reduce primary energy consumption by ~ 40-50% Emissions (GtCO 2 -eq yr -1) Current refrigerants have GWP over 1000 x of CO 2 Global CO 2 and HFC emissions GWP-weighted (100-yr) HFC range 450 ppm 550 ppm high low Year Achieve COP > 4 for GWP 1 Source: Velders et al, PNAS 106, (2009) Global hydrofluoro carbon (HFC) refrigerant emissions are projected to account for the equivalent of 9-19% of CO 2 emissions in 2050
8 Two types of Air Conditioners/Heat Pumps Heating Heating Electricity Air conditioner/ heat pump Heat Air conditioner/ heat pump Cooling Cooling It can run with any kind of heat source: Waste, Solar, Geothermal Very bulky and inefficient 8
9 Portfolio of Technologies Funded BEETIT: $30.3 M, 3 years, 16 projects Seedling (<$1 M) Advanced Device Prototyping ($3-4 M) 20% 18% 20% 21% Vapor Absorbtion/Adsorbtion Solid State Cooling Gas Cycles 17% 23% 15% Dehumidification 45% 21% Mechanical Vapor Compression
10 High-Efficiency, on-line Membrane Air Dehumidifier Enabling Sensible Cooling for Warm and Humid Climates Humidity Ratio ADMA Products Inc. O H 2 O N 2 2 Adsorption Diffusion Temperature Refrigeration unit Selective absorption of water vapor molecules Weight one-two orders of magnitude lower Can Advanced potentially Research Projects Agency beat Energy FOA target by ~50% Desorption Zeolite pore ( nm)
11 Modular Thermal Hub for Building Cooling, Heating, and Water Heating: Thermal heat pump Georgia Technology Research Corporation Microscale Monolithic Absorption Heat Pump SHIM A Components 300 W System
12 Eventual Miniaturization Potential State of the Art: 9-12 ft 3 /RT lb/rt Projected Commercial Units: 4 ft 3 /RT 60 lb/rt 2-3x smaller
13 High-Efficiency Adsorption Chilling Using Novel Metal Organic Heat Carriers: Thermal heat pump Pacific Northwest National Lab Few moving parts Technology Impact 182:F Condenser Chamber Adsorption Chamber 2 Adsorption Chamber 1 100:F Replace silica gel with MOHC sorbents Enable operation with more refrigerants 194:F Hot Water MOHC MOHC Cool Water 85:F 2 4x reduction in system weight and size Flapper valves 53:F Cold Water 44:F Evaporator Chamber Uses waste or solar heat to drive a thermal vapor-liquid cycle
14 Metal-organic Heat Carriers Crystalline solids or gels formed with self-assembled structural building units Continuous porous network with tunable binding energy for gases and liquids Synthesis conditions support thin film deposition, nanophase crystals, or bulk powders Applications in geothermal power, waste heat recovery, cooling and refrigeration
15 Non-Equilibrium Asymmetric Thermoelectrics (NEAT): Solid State Cooler Sheetak Novel electrodes to reduce interface losses Non-equilibrium effects decouple electron and phonon systems Atomically-thin phonon-blocking (PB), electron tunneling junctions 2 3x reduction in cost 2 3x increase in performance
16 Integrated Energy Supply Systems: New Systems Architecture F E F H Engine/ Fuel Cell Heater/ Boiler Solar/Wind High Temp. Thermal Bus Thermal Storage Electrical Storage Power Electronics Geotherm Electrical Bus Air Conditioner/ Heat Pump Thermal Air conditioner H E Performance Goal: Minimize F by at least 25% Technical Challenge: Operating System (Software) & Sensors- Actuators (Hardware) for Optimal Operation Low Temp. Thermal Bus C Thermal Storage Extra heat/electricity can be used for purifying water
17 Applications of Thermal Storage Hot Storage electricity Cold Storage Solar: Convert solar power into base load power using storage Heat pump/engine Nuclear: Heat storage for peak power Grid-level electricity storage: Hightemperature thermal storage + subsequent conversion by engines
18 Applications of Thermal Storage Thermochemical production of fuel from sunlight using heat Photons Phonons Energy in chemical bonds 18
19 Applications of Thermal Storage Industrial waste heat capture and storage PHEV/EV: Thermal battery for thermal management and cabin conditioning Refrigerated trucks and LNG Transport Storing and redeploying heat or cold to match building loads
20 Scale HEATS Focus Areas Synergy between Solar and High-Temp Nuclear Efficiency > 50% Thermochemical Fuel Production from Sunlight Conversion efficiency > 10% Grid level storage using heat pumps Increase EV range by ~ 40% <100 o C Temperature >600 o C o C
21 Efficiency High-Temperature Applications: CSP 0.6 Target Current systems C = 100 C = 1000 C = Temperature ( C) Storage Cost ($/kwh t ) SOA SOA: 3 fluids: Oil, Molten salt, Steam Molten salt Sensible storage T = 100 o C ( o C) Target 15
22 Thermochemical Production of Fuel (Thermofuel) MO 2- H 2 O, CO 2 T H ~1500 C O 2 Haile et al, Science, 2010 MO 2 T L ~800 C Direct thermolysis of water = 4000 C Theoretical efficiency can be greater than 30% Best demonstrated ~ 1 % Temperature > 1500 o C SOA ~1% efficiency Target >10% Significant potential of heat recycling and harvesting
23 Cold battery Thermal charger/ active heater& cooler Heat battery Low temperature: Effect of Climate Control on PHEV and EV Best example of combined heat and power: heating of cabin of IC engine vehicle (heating is free) Fully electrified light duty fleet will require > 1 Quad for heating Power consumption in EV ~ 6 40 miles/hr and miles/hr (Source: Tesla) Mode Peak load (kw) Steady state load (kw) Heat exchanger to the cabin A/C Heat Barnitt et al., NREL, 2010 Heating and cooling can reduce the range of EVs by 5-40% Connected to the wall plug in garage Electrical battery
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