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NISO Energy Corporation
Old Toronto, Canada
1-10 Employees
2015
Our goal is to reach unprecedented success, potentially a market leader in energy generation solutions. The leading aspiration of NISO Energy is to provide sustainable, clean energy helping humanity with decarbonization and transition of the energy industry. A thermoelectric generator (TEG) is a solid-state device that converts temperature differences directly into electrical energy through a phenomenon called the Seebeck effect (a form of thermoelectric effect).
Core business
What is thermoelectric and how does it work?
Advanced Thermoelectric Coolers and related products
Berlin, Germany
11-50 Employees
2007
Founded in 2007, the Hi-Tec company TEC Microsystems GmbH is based in the prominent Technology Park Berlin Adlershof, Germany. Thermoelectric technologies are our core competence based on almost a decade of analysis, innovative development, product design and numerous successful projects in this field. Specialized in miniature thermoelectric modules (Peltier elements), TEC Microsystems GmbH is a driver of innovation and technological progress, including state-of-the-art analysis techniques. Our customers operate worldwide in industries like optoelectronics, telecom, micro-electronics, space, medical equipment/health care, security systems and fundamental research. TEC Microsystems GmbH focuses on miniature thermoelectric module developments and manufacturing technologies. Our key advantages are in the practical implementation of innovative technologies and know-how in real TEC manufacturing. We work directly with engineering teams of our customers and provide advanced thermoelectric solutions optimized for exact application requirements. All thermoelectric modules and related products are designed and developed in our ISO 9001:2015 certified facility in Berlin, Germany.
Product
THERMOELECTRIC COOLERS 1MD03 SERIES
Koolatron Corp
Brantford, Canada
51-100 Employees
-
Sign up for access to exclusive deals, flash sales, and special offers. Join now and receive a promo code for 15% off your next order! Feel free to email us or call us with any questions. We accept Visa, Mastercard, AMEX, and Apple Pay. Dedicated to innovation in manufacturing since 1983, Koolatron is a global leader in thermoelectric technology and refrigeration committed to delivering quality products with exceptional customer service.
Product
Koolatron Thermoelectric Iceless 12V Cooler 26 qt (24 L) Specifications
DTP Thermoelectrics
Altadena, United States
1-10 Employees
2020
Previously known as Lon Bell Consulting, our company was founded in 2014 by Lon Bell with a vision to develop a new generation of thermoelectric systems for use across multiple industries. As a pioneer in thermoelectric technology, Bell recognized that cooling and heating technology must evolve from its fluid-based roots to meet new demands for efficiency, sustainability and cost-effectiveness. Lon is a leading expert in the development and mass production of high-reliability electromechanical systems and solid-state thermoelectric products. Doug works on thermoelectric technology development and is a leading expert in the innovation and optimization of thermoelectric heat-to-power and thermal management. Chris is a technical business leader with proven success in new business growth as well as new product development, R&D and process development. Caylor has experience in a wide array of technical fields including clean energy, additive manufacturing, materials science and thermal management. Caylor is a recognized leader in advanced TE materials systems and device integration as well as compound semiconductors (II-VI, III-V, IV and V-VI). Claire has over 15 years of experience managing business functions in both nonprofit and corporate environments.
Core business
Advancing Thermoelectrics
Universal Analyzers / AMETEK
Carson City, United States
51-100 Employees
1990
Product
500 Series Thermoelectric Gas Cooler
Zematra UK Ltd.
Hull, United Kingdom
1-10 Employees
-
Besides Zematra also has a line for analyzing trace elements. Together with our service and marketing department, responsible for the line of laboratory equipment to full size, which is used in the (Petro) chemical industry, Zematra B.V. Zematra is a major player in Europe for the supply of (petro) chemical laboratory equipment and a global player for our own line of laboratory test equipment and condition monitoring instruments. Zematra started a collaboration with the company Labplant in the UK. In March 2009 Zematra and Imotron moved to the new building in Halsteren. Zematra expanded with the new sister company, Imotron Instruments B.V. Zematra moved to larger premises, the staff grew to a total of 7 people. Zematra launches a full line of (petro) chemical test equipment.
Product
TESC Thermoelectric Sample Conditioner System
MicroPower Global
City of Hamilton, Bermuda
11-50 Employees
2008
Put simply, we produce advanced semiconductor devices that generate electricity when heat is applied to one side, and the other side remains significantly cooler. Here at MicroPower, we develop advanced thermoelectric products that convert heat from any source directly into electricity. We are working closely with the US Army to deliver portable power devices for troops in the field, as well as high-efficiency thermoelectric applications for the US Navy & Special Forces. MicroPower Global is a private company that has developed a groundbreaking form of thermoelectric technology that can convert heat directly into electricity far more efficiently than current alternatives. Our approach is based on thermoelectrics, a technology that has been promising to provide an effective means of generating electricity from heat since the 1960s, but has been held back by a number of factors including low efficiency, high cost, an upper temperature limit of 250°C and an inability to handle harsh industrial environments. Year founded A key element of our IP was purchased in 2008, with work in Texas starting in 2010. Our PowerBlock and PowerRing Series 200 products are solid state thermoelectric systems that convert heat to electricity in extreme operating temperatures at high efficiencies.
Product
Thermoelectrics Background
LAUDA
Lauda-Königshofen, Germany
- Employees
1956
Wir sind LAUDA – Weltmarktführer für exakte Temperaturen. Wir sind der zuverlässige Partner für Elektromobilität, Wasserstoff, Chemie, Pharma/Biotech, Halbleiter und Medizintechnik. Wir bei LAUDA treiben die Digitalisierung der Temperiertechnik stetig voran. Zudem bietet LAUDA.LIVE neue Möglichkeiten zur Geräteüberwachung und Parameterauswertung mittels Multi-Level Zugangskontrollen von jedem PC mit Internetanschluss. Wir produzieren maßgeschneiderte Temperierlösungen, die wir Ihren Bedürfnissen anpassen. Als Komplettanbieter gewährleisten wir die optimale Temperatur in Forschung, Produktion und Qualitätskontrolle. Mit kompetenter Beratung und innovativen Lösungen begeistern wir unsere Kunden seit fast 70 Jahren täglich neu – weltweit. Wir bieten eine große Auswahl an hochwertigen Temperiergeräten für die unterschiedlichsten Anwendungszwecke: Thermostate, Umlaufkühler, Wasserbäder, individuelle Temperiersysteme sowie industrielle Anlagen.
Product
Semistat Thermoelectric thermostat
EZetil GmbH
Hungen, Germany
11-50 Employees
2017
Mobicool was founded in 1991 on a really simple idea: to build coolers that are fun to use, stylish and great value. Our products are all tough, dependable and hassle-free. A cooler from Mobicool is perfect for any adventure.
Product
Mobicool MQ40A - 39 l thermoelectric cooler, aluminium – 12/230 V
Shanghai Shangshi Energy Technology Co., Ltd.
Shanghai, China
51-100 Employees
2010
Shanghai Shangshi Energy Technology Co., Ltd was founded in 2010 which is dedicated in the research, design and production of the new type energy power. It owns advanced production facilities and highly competent research team and has the advanced world-class core technology and autonomous intellectual property of the design and manufacturing super-high speed generators, high-speed turbomachine, and highly efficient heat exchanger. It aims to provide “the optimized solution for the customers on substitute system of highly efficient modularized power generation and power transmission. The current ORC low-temperature thermoelectric generator,micro turbo power generator and other high-tech products have been popular in the oversea market of Europe and US. We have been committed to research and development, production and marketing of low temperature thermoelectric power generation and high-temperature super-efficient power generation systems.
Product
Low temperature thermoelectric power generation
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about your company results for Thermoelectric
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 1785 |
| Amount of suitable service providers | 1315 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1941 |
| Youngest suiting company | 2015 |
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Thermoelectric refers to a class of phenomena and associated technologies that involve the direct conversion between thermal energy and electrical energy. This conversion is facilitated through the Seebeck effect, Peltier effect, and Thomson effect, which are the cornerstone principles of thermoelectricity. In the Seebeck effect, a voltage is generated across two dissimilar electrical conductors or semiconductors that are subjected to a temperature difference, enabling the conversion of temperature gradients into electrical power. Conversely, the Peltier effect allows for heating or cooling by applying an electrical current across the junction of two different materials, thereby absorbing or releasing heat. The Thomson effect describes the heating or cooling of a current-carrying conductor with a temperature gradient. Thermoelectric materials, which exhibit these effects, are evaluated based on their efficiency, which is a function of the material's Seebeck coefficient, electrical conductivity, and thermal conductivity. In practical applications, thermoelectric technologies offer a solid-state, environmentally friendly alternative for small-scale refrigeration and power generation, finding use in electronic cooling systems, portable refrigerators, and in the recovery of waste heat from engines or industrial processes to generate electricity. The role of thermoelectricity in energy conversion and management is increasingly significant, offering a pathway to enhance energy efficiency and contribute to sustainable energy solutions by exploiting thermal energy gradients for power generation and temperature regulation without moving parts or fluids, presenting a reliable and maintenance-free operation.
1. Energy Efficiency
: Thermoelectric devices can achieve high levels of energy efficiency by directly converting heat into electricity without moving parts, reducing energy loss in the process. This makes them ideal for applications where energy conservation is paramount.
2. Environmental Friendliness
: Unlike traditional cooling and power generation systems that may use harmful refrigerants or fossil fuels, thermoelectric systems utilize solid-state materials, making them more environmentally friendly. They do not emit greenhouse gases or require hazardous materials for operation, contributing to a cleaner planet.
3. Reliability and Longevity
: With no moving parts, thermoelectric systems are inherently more reliable and require less maintenance than their mechanical counterparts. This leads to longer service lives and lower total cost of ownership, as they are less likely to break down or require repairs.
4. Versatility and Scalability
: Thermoelectric technology can be easily scaled up or down and is versatile enough to be used in a wide range of applications, from cooling electronic devices to generating power in remote locations. This adaptability makes it suitable for both large industrial applications and small consumer products.
While evaluating the different suppliers make sure to check the following criteria:
1. Material Quality
Ensure the supplier uses high-quality materials that offer optimal thermal-to-electric conversion efficiency. The performance and longevity of thermoelectric materials are critical for their application.
2. Customization Capabilities
Assess the supplier's ability to provide customized solutions. This includes tailoring the thermoelectric modules to specific sizes, shapes, and power requirements.
3. Product Range
Look for suppliers with a wide range of products. A diverse product line indicates the supplier's expertise and ability to cater to different applications.
4. Technical Support and Services
Evaluate the level of technical support provided. Good suppliers offer comprehensive pre and post-sale support, including installation guidance, troubleshooting, and maintenance services.
5. Certifications and Standards Compliance
Check for relevant industry certifications and standards compliance. This ensures the products meet quality and safety benchmarks.
6. Lead Times and Flexibility
Consider the supplier's lead times and their flexibility in order fulfillment. Reliable suppliers can meet demand without significant delays.
7. Cost-Effectiveness
While not the only factor, the cost of the thermoelectric modules relative to their performance and quality is important. Look for competitive pricing without compromising on quality.
8. Environmental and Sustainability Practices
Prefer suppliers that adhere to environmentally friendly practices and sustainability in their manufacturing and supply chain processes.
Thermoelectric technology, harnessing the Peltier effect for cooling and the Seebeck effect for power generation, has found its way into numerous B2B applications across different industries, enhancing efficiency and offering innovative solutions. In the telecommunications industry, thermoelectric coolers (TECs) are crucial for maintaining optimal operating temperatures of sensitive electronic equipment. These solid-state devices offer precise temperature control for outdoor enclosures and base station equipment, ensuring reliability and longevity in various climatic conditions without the need for traditional, maintenance-heavy cooling systems. The automotive sector benefits from thermoelectric generators (TEGs) for waste heat recovery. By converting excess heat from the engine into electrical power, TEGs improve fuel efficiency and reduce emissions. This application is particularly relevant for hybrid and electric vehicles, contributing to the automotive industry's push towards greener solutions. In the medical field, thermoelectric technology plays a vital role in portable medical refrigeration units. These units are essential for the safe transport and storage of vaccines, medications, and biological samples at precise temperatures. This capability is critical for medical services, especially in remote areas or during transportation, ensuring the integrity and efficacy of life-saving medical supplies. These use cases underscore the versatility and importance of thermoelectric technology across various industries, providing efficient and reliable solutions for cooling, power generation, and temperature control.
As of the current assessment, thermoelectric technology predominantly occupies Technology Readiness Level (TRL) 6 to 8 across various applications, signifying that prototypes have demonstrated considerable efficacy in relevant environments and are nearing or undergoing refinement for final applications. This range reflects the transition from successful demonstration of components and systems in controlled environments (TRL 6) to actual system completion and demonstration in operational environments (TRL 8). The primary technical reasons for this positioning include advancements in material science that have significantly improved the efficiency of thermoelectric materials, such as the development of novel bismuth telluride alloys and skutterudites, which offer higher Seebeck coefficients, better thermal conductivity, and enhanced electrical properties. Additionally, progress in nanostructuring techniques has led to the reduction of thermal conductivity while maintaining or enhancing electrical conductivity, thus optimizing the figure of merit (ZT) which is a measure of a material's thermoelectric performance. Despite these advancements, challenges remain in scaling up the technology for widespread commercial and industrial applications, mainly due to the cost, durability, and integration of thermoelectric materials into existing systems. These challenges have prevented thermoelectric technology from achieving TRL 9, which would indicate full commercial deployment. Nonetheless, the current TRL reflects significant technical progress, indicating that thermoelectric technology is on the cusp of broader applicability and adoption.
In the short-term, advancements in thermoelectric materials are expected to focus on enhancing the efficiency of existing compounds, such as bismuth telluride, through nanostructuring techniques. Researchers are working on improving the materials' figure-of-merit (ZT), which is crucial for their efficiency in energy conversion. This phase is likely to see the development of more cost-effective and environmentally friendly thermoelectric materials that can operate efficiently at room temperature, making them more viable for consumer electronics and automotive applications for waste heat recovery. In the mid-term, the focus will shift towards the integration of thermoelectric generators (TEGs) into broader applications, including industrial waste heat recovery systems and remote power sources. Innovations in material science, such as the discovery and optimization of new thermoelectric compounds with higher ZT values at a wider range of temperatures, will be key. Additionally, advancements in manufacturing processes will enable the mass production of TEGs at lower costs, expanding their application scope to include powering wearable technology and IoT devices. Long-term advancements are expected to revolutionize thermoelectric technology with the development of ultra-efficient, flexible thermoelectric materials that can be seamlessly integrated into various surfaces and textiles. These materials will harness energy from human body heat, ambient temperature fluctuations, and natural sources on a scale that could significantly reduce reliance on traditional energy sources. Moreover, breakthroughs in quantum physics and material science could lead to the development of novel thermoelectric materials that operate efficiently at high temperatures, opening new avenues for their use in space exploration and other high-temperature environments.
Some interesting questions that has been asked about the results you have just received for Thermoelectric
What are related technologies to Thermoelectric?
Based on our calculations related technologies to Thermoelectric are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Which industries are mostly working on Thermoelectric?
The most represented industries which are working in Thermoelectric are Other, Electronics and Electrical engineering, Oil, Energy and Gas, Manufacturing, Construction
How does ensun find these Thermoelectric Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
