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Thermoelectric Energy Harvesting 2018-2028: Applications, Markets, Players

Thermoelectric Energy Harvesting 2018-2028: Applications, Markets, Players

Thermoelectric generators are devices which convert temperature differences into electrical energy. The principal phenomenon that underpins thermoelectric energy generation is known as the Seebeck effect: the conversion of a temperature differential into electricity at the junction of two materials.

Although thermoelectric phenomena have been used for heating and cooling applications quite extensively, electricity generation has only seen very limited market in niche applications and it is only in recent years that interest has increased regarding new applications of energy generation through thermoelectric harvesting.

The new applications are varied and the vertical markets benefiting from new devices range from condition monitoring in industrial environments, smart metering in energy market segments, to thermoelectric applications in vehicles, either terrestrial or other.

This report gives an overview of devices, materials and manufacturing processes, with a specific focus on emerging technologies that allow for new functionality, form factor and application in various demanding environments. Whether it is operation in high temperatures or corrosive environments, applications with increased safety demands or components that need to be thin, flexible, or even stretchable, there is a lot of research and development work worldwide which is highlighted.

Waste heat recovery systems in vehicles:

A large number of car companies, including Volkswagen, VOLVO, FORD and BMW in collaboration with NASA have been developing thermoelectric waste heat recovery systems in-house, each achieving different types of performance but all of them expecting to lead to improvements of 3-5% in fuel economy while the power generated out of these devices could potentially reach up to 1200W. What does the future hold with electrification of vehicles globally picking up pace and the market conditions turning unfavorable for thermoelectrics that require the high temperatures present in internal combustion engines for optimal operation.

Wireless sensor network adoption

Wireless sensors powered by thermogenerators in environments where temperature differentials exist would lead to avoiding issues with battery lifetime and reliability. It would also lead to the ability to move away from wired sensors, which are still the solution of choice when increased reliability of measurement is necessary. Some applications have low enough power demands to operate with small temperature differentials, as small as a few degrees in some cases. These types of developments increase adoption trends.

Consumer applications:

In these applications, the type of solution that thermogenerators provide varies: it could be related to saving energy when cooking by utilising thermo-powered cooking sensors, powering mobile phones, watches or other consumer electronics, even body sensing could become more widespread with wearables such as sensory wristbands, clothing or athletic apparel that monitor vitals such as heart rate, body temperature, etc.

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1.1. Executive summary and conclusions
1.2. Market forecasts for thermoelectric energy harvesters in different applications 2016-2028 - number (thousand)
1.3. Market forecasts for thermoelectric energy harvesters in different applications 2016-2028 - unit price (dollars)
1.4. Market forecasts for thermoelectric energy harvesters in different applications 2016-2028 - market value (dollars million)
1.5. Wireless sensors actuators, and wireless sensor networks
1.6. Home automation commercial & retail buildings, and industrial automation
1.7. Consumer, military and aerospace applications
1.8. Additional challenges and opportunities for thermoelectric devices
1.9. Thermoelectric power generation at room temperature: coming soon?
1.10. Examples of thermoelectric progress in 2018
2.1. The Seebeck and Peltier effects
2.2. Manufacturing of thermoelectric generators
2.2.1. Thermoelectric generator design considerations
2.3. Thin film thermoelectric generators
2.4. Material choices
2.5. Organic thermoelectrics - PEDOT:PSS, not just a transparent conductor
2.6. Bi-functional thermoelectric generator/ pre-cooler: DC power from aircraft bleed air
2.7. Thermite powered thermoelectrics
3.1. Manufacturing of flexible thermoelectric generators
3.2. AIST technology details
4.1. Wireless sensing
4.1.1. EverGen PowerStrap
4.1.2. WiTemp
4.1.3. GE Logimesh
4.1.4. Wireless sensors and actuators
4.2. Aerospace
4.3. Implantable thermoelectrics
4.4. Thermoelectrics in consumer electronics/wearables
4.4.1. Matrix PowerWatch1
4.4.2. Academic research on wearables
4.4.3. Device size requirements in wearables
4.5. Solar and thermoelectric energy harvesting in one device
4.5.1. Thermoelectric energy harvesting in consumer electronics - discussion
4.5.2. Thermoelectric energy harvesting in consumer electronics - power requirements
4.5.3. Thermoelectric energy harvesting in consumer electronics - e-textile integration
4.6. Thermoelectric energy harvesting in building & home automation
4.6.1. The Sentinel
4.6.2. PowerPot™ and Spark
4.6.3. Home and commercial building automation - discussion
4.7. Automotive applications
4.7.1. BMW
4.7.2. Ford
4.7.3. Volkswagen
4.7.4. Challenges of Thermoelectrics for Vehicles
4.7.5. Peak in overall car sales then peak in electric car sales k globally
4.8. Military
4.9. Other industrial applications
4.10. Alphabet Energy's E1 thermoelectric generator
4.11. Consumer applications and healthcare
5.1. Ford
5.2. Microsemi
5.3. Rolls Royce
5.4. TRW
5.5. Volvo
6.1. Alphabet Energy, Inc.
6.2. e-thermogentech
6.3. EVERREDtronics Ltd
6.4. Ferrotec Corporation
6.5. Gentherm
6.6. Global Thermoelectric (now Gentherm)
6.7. greenTEG
6.8. Hi Z Technology, Inc
6.9. KELK Ltd
6.10. Laird/ Nextreme
6.11. Marlow
6.12. mc10
6.13. National Institute of Advanced Industrial Science & Technology (AIST)
6.14. Novus
6.15. O-Flexx
6.16. OTEGO
6.17. Perpetua
6.18. RGS Development
6.19. Romny Scientific
6.20. Tellurex Corporation
6.21. Termolife Energy Corporation
6.22. Yamaha

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