New York, May 02, 2018: Extensive research is being carried out to harness the unused waste heat from various sources like machines, power stations, and automotives among others to reduce the fuel consumption and enhance efficiency of these machines. Thermoelectric generators (TEG) are gaining popularity as an upcoming “green technology” because it converts waste heat (zero cost) into electrical energy, thus adding to its market growth. The only major constraint in achieving this is its high cost and lower efficiency. Research is being carried out to make this TE technology commercially viable.
Thermoelectric generators (TEG) are solid state devices which convert temperature difference between two materials into electrical energy. Thermoelectric generators (TEG) are based on the principles of Seebeck effect. Some common thermoelectric materials are Bismuth Telluride (Bi2Te3), Lead Telluride (PbTe), Silicon Germanium (SiGe), and Bismuth-Antimony (Bi-Sb) among others. These generators are being preferred because they are silent, highly reliable, have low operational and maintenance cost, and can work in harsh and remote environments. Another important factor is its scalability, which makes its application feasible to any size of heat source.
North America leads the global thermoelectric generators market followed by Asia-Pacific and the Rest of the World (RoW). The key players in the global thermoelectric generators market include Gentherm, Alphabet Energy, Yamaha Corp, TECTEG MFR, Komatsu Corp, and Laird Tech among others.
SEGMENTATION IN THE REPORT:
Thermoelectric Generators By Application
Thermoelectric Generators By Temperatures
<100 Degree C
100 -500 Degree C
500-1K degree C
>1K degree C
Thermoelectric Generators By Controller
Thermoelectric Generators By Power:
Thermoelectric Generators By Material
We are involved in providing research reports and company profiles of the global thermoelectric generators market in terms of revenue and output/volume. Market drivers, opportunities and restraints, which influence the market, are thoroughly studied. This study is further utilized for the overall analysis of the market. The thermoelectric generators market is segmented based on the global applications, geographic presence, by-products and ingredients. We offer an inclusive category-specific market outlook. We provide access to a comprehensive collection of companies in the industry. The companies can strategize and execute business operations through our competitor analysis. Find the global industry analysis, market size, share, growth, and trends information in our thermoelectric generators profiles.
There are varieties of thermoelectric generators available in the market today, they vary based on their operating voltage, temperature, materials they are made up of and how they are controlled. Initially, thermoelectric generators were used to find application only as heating or cooling devices but recent research activities have developed them as energy harvesting devices. Thermoelectric generators find application in automotives, manufacturing machineries and equipments, sensors, wearable, conditional monitors, smart meters and other products. Lately thermoelectric generators are being used for waste heat recovery.
Table of Contents
2 Research Methodology
3 Executive Summary
4 Premium Insights
4.1 Attractive Market Opportunities
4.2 Thermoelectric Generators Market, By End User
4.3 Market, By Source
4.4 Market: Source vs End User
4.5 Opportunities in Market
4.6 Market, By Temperature
4.7 Thermoelectric Generator Life Cycle Analysis, By Region
5 Market Overview
6 Industry Trends
7 Thermoelectric Generators Market, By End User
8 Thermoelectric Generators Market, By Temperature
9 Thermoelectric Generators Market, By Wattage
10 Thermoelectric Generators Market, By Source
11 Thermoelectric Generators Market, By Material
12 Thermoelectric Generators Market, By Geography
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