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Artykuły w czasopismach na temat „Thermo-Electric Generators”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Hewawasam, L. S., A. S. Jayasena, M. M. M. Afnan, R. A. C. P. Ranasinghe, and M. A. Wijewardane. "Waste heat recovery from thermo-electric generators (TEGs)." Energy Reports 6 (February 2020): 474–79. http://dx.doi.org/10.1016/j.egyr.2019.11.105.

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Gupta, Rinki, Vaishnavi Rout, Khushi Rajput, V. K. Chawla, Hassan Fouad, and M. S. Akhtar. "A Sustainable Method to Convert Waste Heat Energy to Electricity by Using Thermo-Electric Generators." Journal of Nanoelectronics and Optoelectronics 18, no. 4 (2023): 502–9. http://dx.doi.org/10.1166/jno.2023.3410.

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This paper aims to generate clean electricity by utilizing waste heat available in the environment. To achieve this, a thermoelectric generator (TEG) is used in conjunction with a Peltier module, voltage regulator, and USB charging module. The Peltier modules are connected in series to maximize voltage and minimize loss. The proposed methodology is first numerically modeled and simulated using Ansys and COMSOL, after which the model is developed with an assembly of all the above-mentioned modules. The paper mainly focuses on the sustainable use of waste heat energy to produce clean energy in t
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Remeli, Muhammad Fairuz, Abhijit Date, Baljit Singh, and Aliakbar Akbarzadeh. "Passive Power Generation and Heat Recovery from Waste Heat." Advanced Materials Research 1113 (July 2015): 789–94. http://dx.doi.org/10.4028/www.scientific.net/amr.1113.789.

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This research presents a passive method of waste heat recovery and conversion to electricity using Thermo-Electric Generator (TEG). For this purpose, a lab scale bench-top prototype of waste heat recovery and conversion system was designed and fabricated. This bench top system consists of the thermoelectric generators (TEGs) sandwiched between two heat pipes, one connected to the hot side of the TEG and the second connected to the cold side of the TEG. A 2 kW electric heater was used to replicate the waste heat. An electric fan was used to provide air into the system. A theoretical model was d
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Ragupathi, P. "Thermal analysis of thermo electric generator for waste heat recovery." Sustainable Engineering Science and Research Journal 01, no. 01 (2022): 01–05. https://doi.org/10.5281/zenodo.6554823.

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The thermoelectric generators (TEGs) are used to generate electric power. Thermo electric modules which are used in TEGs are utilized to change the thermal energy into electrical energy and it operates on the basic concept of See beck effect. Power generation by Thermo-Electric (TE) materials is an interesting method for the direct translation of thermal energy into electrical energy. This work discovers a method of analysis on the performance of TEGs with different materials for recovering the waste heat and converts it into electric power. For this, an experimental setup for waste heat recov
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Talari, Lokesh* Prof. Dr. G. Prasanthi. "THERMO-ELECTRIC POWER GENERATION USING SOLAR AS AN ALTERNATIVE GREEN TECHNOLOGY." INTERNATIONAL JOURNAL OF ENGINEERING SCIENCES & RESEARCH TECHNOLOGY 5, no. 7 (2016): 809–13. https://doi.org/10.5281/zenodo.57934.

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In recent years, an increasing concern of environmental issues of emissions, in particular global warming and the limitations of energy resources has resulted in extensive research into novel technologies of generating electrical power. Thermoelectric power generators have emerged as a promising alternative green technology due to their distinct advantages. Their typical efficiencies are around 5-8%. Older Seebeck-based devices used bimetallic junctions and were bulky while more recent devices use semiconductor p-n junctions made from bismuth telluride (Bi2Te3), lead telluride (PbTe), calcium
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Tharun Kumar G, Vincent Vidyasagar J, Ramesh M, and Akhila C R. "Functional implantable devices designed using bio-potential thermoelectric generator." International Journal of Research in Phytochemistry and Pharmacology 9, no. 4 (2019): 39–42. http://dx.doi.org/10.26452/ijrpp.v9i4.1351.

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Thermo Electric Generator is a device which Converts warmth immediately into electric electricity the usage of a phenomenon known as the "Seebeck effect”. Unlike traditional dynamic warmness engines, thermoelectric generators contain no shifting components and are absolutely silent. But for small packages, thermoelectrics can end up competitive due to the fact they are compact, easy (inexpensive) and scalable. Thermoelectric systems may be without problems designed to perform with small heat resources and small temperature difference. The main aim of this project is to use BIO-POTENTIAL as a d
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A. Marzouk, Osama. "Thermoelectric generators versus photovoltaic solar panels: Power and cost analysis." Edelweiss Applied Science and Technology 8, no. 5 (2024): 406–28. http://dx.doi.org/10.55214/25768484.v8i5.1697.

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In the current study, the concept of building a power plant using thermoelectric generator (TEG) modules is investigated, both technically and economically. The hypothesized thermoelectric generation power plant is a modular system, consisting of a large array of electrically connected thermoelectric generator units for generating clean electricity with-out greenhouse gas (GHG) emissions, noise, or hazardous solid wastes. The envisioned thermoelectric generation power plant (TEGPP) considered here is assumed to utilize solar radiation as a heat source, and water as a heat sink. The viability o
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8

Mehnert, Markus, Mokarram Hossain, and Paul Steinmann. "On nonlinear thermo-electro-elasticity." Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 472, no. 2190 (2016): 20160170. http://dx.doi.org/10.1098/rspa.2016.0170.

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Electro-active polymers (EAPs) for large actuations are nowadays well-known and promising candidates for producing sensors, actuators and generators. In general, polymeric materials are sensitive to differential temperature histories. During experimental characterizations of EAPs under electro-mechanically coupled loads, it is difficult to maintain constant temperature not only because of an external differential temperature history but also because of the changes in internal temperature caused by the application of high electric loads. In this contribution, a thermo-electro-mechanically coupl
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9

Manfrida, Giampaolo, and Lorenzo Talluri. "Exergy Analysis of a Wood Fireplace Coupled with Thermo-Electric Modules." Proceedings 58, no. 1 (2020): 10. http://dx.doi.org/10.3390/wef-06920.

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In recent years the climate change issue, coupled with the concern of resource depletion, is favoring the blossoming of renewable energy conversion systems. Particularly, the development of new technologies for the combustion of biomass has drawn special attention to the possibility of coupling thermoelectric modules with stove-fireplaces. The current thermoelectric generators have many attractive points, such as a solid structure, absence of noise, and no maintenance required; however, due to their very low efficiency (4–8%), they are still economically non-attractive. However, if the modules
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10

KNEBA, Zbigniew. "The production of effective power from a vehicle engine waste heat." Combustion Engines 146, no. 3 (2011): 24–27. http://dx.doi.org/10.19206/ce-117088.

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The paper presents an overview of selected items of literature related to the possible use of the heat from a vehicle engine exhaust that is normally released to the environment. Systems of new standards, still on the testing stage not currently in use have been analyzed. The disadvantages such as large mass and high costs of the steam systems have been indicated. Thermo-generators, in turn, are characterized by low electric power per unit weight. In the last chapter the authors discuss the accumulation of heat in order to reduce the engine warm-up time.
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11

Kishore, R. A., D. Singh, P. Kumar, R. Sriramdas, M. Sanghadasa, and S. Priya. "P(VDF–TrFE) based spiral thermo-magneto-electric generators for harvesting low grade thermal energy." Journal of Physics: Conference Series 1407 (November 2019): 012023. http://dx.doi.org/10.1088/1742-6596/1407/1/012023.

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Parveen, S., S. Victor Vedanayakam, and R. Padma Suvarna. "Thermoelectric generator electrical performance based on temperature of thermoelectric materials." International Journal of Engineering & Technology 7, no. 3.29 (2018): 189. http://dx.doi.org/10.14419/ijet.v7i3.29.18792.

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In space applications, the radioisotope thermoelectric generators are being used for the power generation. The energy storage devices like fuel cells, solar cells cannot function in remote areas, in such cases the power generating systems can work successfully for generating electrical power in space missions. The efficiency of thermo electric generators is around 5% to 8% . Bismuth telluride has high electrical conductivity (1.1 x 105S.m /m2) and very low thermal conductivity (1.20 W/ m.K). A Thermoelectric generator has been built up consisting of a Bi2Te3 based on thermoelectric module. The
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13

Baldini, Andrea, Luca Cerofolini, Daniele Fiaschi, Giampaolo Manfrida, and Lorenzo Talluri. "Thermodynamic Assessment on the Integration of Thermo-Electric Modules in a Wood Fireplace." Civil and Environmental Engineering Reports 29, no. 4 (2019): 218–35. http://dx.doi.org/10.2478/ceer-2019-0056.

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Abstract The growing demand for electricity produced from renewable sources and the development of new technologies for the combustion of biomass, arose a growing interest on the possible coupling of thermoelectric modules with stove-fireplaces. The current thermoelectric generators have a solid structure, do not produce noise, do not require maintenance and can be used for the recovery of waste heat or excess, at the same time they hold a very low conversion efficiency and they need an adequate cooling system. Nevertheless, they still hold a cost, which is still too high to make them attracti
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14

CHOUDHARY, PRAVEEN KUMAR. "INVESTIGATION OF WASTE HEAT RECOVERY SYSTEMS USING THERMO-ELECTRIC GENERATORS AND SIMULATIONS FOR USED AUTOMOBILE RADIATORS." International Scientific Journal of Engineering and Management 03, no. 04 (2024): 1–9. http://dx.doi.org/10.55041/isjem01533.

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Providing good and best solutions to everyday problems varies day by day with the evolving technologies. The solution pertaining to the problems associated with the exhaust gases from the automobile or other such equipments revolves around only on the ways of reducing the pollution. Many designs and developments are also made in terms of alternative energies at low cost. One such ideology is to recover and reuse the energy that is exhibited out in the form of liquid or heat. Waste heat recovery will be a new energy source. Thermal fluid flow heat recovery system from Automobile radiator with i
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15

Colmenares-Quintero, Ramón Fernando. "Techno-environmental assessment of a micro-cogeneration system based on natural gas for residential application." CT&F - Ciencia, Tecnología y Futuro 8, no. 1 (2018): 101–12. http://dx.doi.org/10.29047/01225383.97.

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The study carried out here aims to determine the advantage of using in-situ electricity generation facilities versus conventional generators, being evaluated from the environmental point of view. For this, an environmental analysis on the production of CO2 has been applied to two scenarios of electricity generation for a residential building in Medellin city (Colombia). The first one refers to La Sierra thermo-electric plant located in La Sierra, municipality of Puerto Nare, in the Antioquiashire, which is the most efficient plant in Colombian thermal generation. The second comparison scenario
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16

Tambunan, B. H., J. P. Simanjuntak, and I. Koto. "The use of thermo electric generator to utilize the waste heat from the biomass stove into electricity." Journal of Physics: Conference Series 2193, no. 1 (2022): 012045. http://dx.doi.org/10.1088/1742-6596/2193/1/012045.

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Abstract Indonesia has a huge potential for biomass energy resources. In 2013, the estimated potential of forest biomass in Indonesia for bioenergy was 132 PJ, 50.4% from harvest residues and 49.6% from wood processing residues. Until now, the technology of burning biomass using a stove continues to develop. Biomass stoves are designed, modified and tested to get maximum performance, at least approaching the performance of LPG-fueled stoves. Several studies concluded that about 14.66% of the total heat loss is on the walls of the biomass stove. The purpose of this study was to investigate whet
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17

Yang, Wenlong, Wenchao Zhu, Yang Yang, Liang Huang, Ying Shi, and Changjun Xie. "Thermoelectric Performance Evaluation and Optimization in a Concentric Annular Thermoelectric Generator under Different Cooling Methods." Energies 15, no. 6 (2022): 2231. http://dx.doi.org/10.3390/en15062231.

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To ensure effective heat recovery of thermoelectric generators, a cooling system is necessary to maintain the working temperature difference of the thermoelectric couples, which decreases continuously due to thermal diffusion. In order to evaluate and improve the thermoelectric performance of a concentric annular thermoelectric generator under various cooling methods, a comprehensive numerical model of the thermo-fluid-electric multi-physics field for an annular thermoelectric generator with a concentric annular heat exchanger was developed using the finite-element method. The effects of four
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Okhay, Olena, and Alexander Tkach. "Graphene/Reduced Graphene Oxide-Carbon Nanotubes Composite Electrodes: From Capacitive to Battery-Type Behaviour." Nanomaterials 11, no. 5 (2021): 1240. http://dx.doi.org/10.3390/nano11051240.

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Thanks to the advanced technologies for energy generation such as solar cells and thermo- or piezo-generators the amount of electricity transformed from light, heat or mechanical pressure sources can be significantly enhanced. However, there is still a demand for effective storage devices to conserve electrical energy which addresses the wide range of large stationary applications from electric vehicles to small portable devices. Among the large variety of energy-storage systems available today, electrochemical energy sources and, in particular, supercapacitors (SC), are rather promising in te
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19

Baradey, Y., M. N. A. Hawlader, Ahmad Faris Ismail, and Meftah Hrairi. "WASTE HEAT RECOVERY IN HEAT PUMP SYSTEMS: SOLUTION TO REDUCE GLOBAL WARMING." IIUM Engineering Journal 16, no. 2 (2015): 31–42. http://dx.doi.org/10.31436/iiumej.v16i2.602.

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Energy conversion technologies, where waste heat recovery systems are included, have received significant attention in recent years due to reasons that include depletion of fossil fuel, increasing oil prices, changes in climatic conditions, and global warming. For low temperature applications, there are many sources of thermal waste heat, and several recovery systems and potential useful applications have been proposed by researchers [1-4]. In addition, many types of equipment are used to recover waste thermal energy from different systems at low, medium, and high temperature applications, suc
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Arsie, Ivan, Andrea Cricchio, Vincenzo Marano, Cesare Pianese, Matteo De Cesare, and Walter Nesci. "Modeling Analysis of Waste Heat Recovery via Thermo Electric Generators for Fuel Economy Improvement and CO2 Reduction in Small Diesel Engines." SAE International Journal of Passenger Cars - Electronic and Electrical Systems 7, no. 1 (2014): 246–55. http://dx.doi.org/10.4271/2014-01-0663.

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Elghool, Ali, Firdaus Basrawi, Hassan Ibrahim, Thamir K. Ibrahim, Shaharin A. Sulaiman, and M. Ishak. "Study on the Performance of a Thermo-Electric Generation Model with Two Different Materials of Heat Pipe-Heat Sink." MATEC Web of Conferences 225 (2018): 04009. http://dx.doi.org/10.1051/matecconf/201822504009.

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Heat sink lack of design is one reason that negatively affects the performance of thermoelectric modules. As compared to conventional cooling systems equipped with thermoelectric generators (TEG), heat pipe heat sink has various points of interest. Heat pipe heat sink is the most appropriate heat exchanger for medium temperature range under 300 °C. This paper demonstrates the effect of different materials of heat pipe-heat sink on the TEG performance. Two types of heat sinks were tested with TEG, one made from copper while the other from aluminium. The aim is to improve power output of TEG by
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Muhammad, Suleman Malik. "Hybrid System for Electricity Generation using Waste Heat & Wind from Exhaust Duct of Generator." International Journal of Engineering Works (ISSN: 2409-2770) 4, no. 5 (2017): 101–7. https://doi.org/10.5281/zenodo.801898.

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The objective of this paper is to utilize wasted heat and hot pressurized air from the exhaust duct of the generator in generating station to produce electricity. This heat and exhaust air is produced due to two types of losses i.e, core losses and copper losses inside generator and its temperature gradient with respect to the external environment. To accomplish this task a hybrid system consisting of Thermoelectric Cells and Wind Turbine assembly is designed in which Thermoelectric Cells produces electricity using the wasted heat based upon the Seebeck effect while the wind turbine generates
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Suraparaju, Subbarama Kousik, Elavarasan Elangovan, Gopi Vasudevan, Mahendran Samykano, and Sendhil Kumar Natarajan. "Numerical and experimental investigations on a thermoelectric generator for electric power generation from waste heat recovery in a combined cycle power plant – an energy and economic (2E) analysis." Transactions on Energy Systems and Engineering Applications 6, no. 1 (2025): 1–35. https://doi.org/10.32397/tesea.vol6.n1.643.

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With the ever-growing population in the world, the electricity demand has elevated drastically over the decades. Several kinds of research are being carried out to meet the electricity needs of the world with conventional and non-conventional energy sources. The conventional form of generating electricity from power plants has lesser efficiency and there is always scope for increasing the efficiency of power plants by using several heat recovery methods. The efficacy of the combined cycle power plant is around 62% where more amount of energy is dissipated as waste heat. The main objective of t
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Praveenkumar, Seepana, Ephraim Bonah Agyekum, Abhinav Kumar, and Vladimir Ivanovich Velkin. "Thermo-enviro-economic analysis of solar photovoltaic/thermal system incorporated with u-shaped grid copper pipe, thermal electric generators and nanofluids: An experimental investigation." Journal of Energy Storage 60 (April 2023): 106611. http://dx.doi.org/10.1016/j.est.2023.106611.

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Abed, Ahmed M., Laila F. Seddek, and Samia Elattar. "Building a Digital Twin Simulator Checking the Effectiveness of TEG-ICE Integration in Reducing Fuel Consumption Using Spatiotemporal Thermal Filming Handled by Neural Network Technique." Processes 10, no. 12 (2022): 2701. http://dx.doi.org/10.3390/pr10122701.

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Scholars seek to recycle wasted energy to produce electricity by integrating thermoelectric generators (TEGs) with internal combustion engines (ICE), which rely on the electrical conductivity, β, of the thermal conductor strips. The TEG legs are alloyed from iron, aluminum and copper in a strip shape with specific characteristics that guarantee maximum thermo-electric transformation, which has fluctuated between a uniform, Gaussian, and exponential distribution according to the structure of the alloy. The ICE exhaust and intake gates were chosen as the TEG sides. The digital simulator twin mod
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Bensaid, Samir, Mauro Brignone, Alessandro Ziggiotti, and Stefania Specchia. "High efficiency Thermo-Electric power generator." International Journal of Hydrogen Energy 37, no. 2 (2012): 1385–98. http://dx.doi.org/10.1016/j.ijhydene.2011.09.125.

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Adam, Nor Mariah, Hanaa Kadhim, and Pang Hung Yiu. "Application of Thermo Electric Generator to Operate Keluar Sign using Waste Heat of Air Conditioner Compressor." Journal of Advanced Research in Dynamical and Control Systems 11, no. 12-SPECIAL ISSUE (2019): 814–17. http://dx.doi.org/10.5373/jardcs/v11sp12/20193280.

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Sana, Ullah Khan. "Design and Objective of Thermo-Electric Generator." International Journal of Engineering Works (ISSN:2409-2770) 3, no. 7 (2016): 55–60. https://doi.org/10.5281/zenodo.60337.

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Waste heat is created as an outgrowth in many process such as driving vehicles, running, cooking, electricity generation, working on computer etc. if we perform any task in the result decay warmth is created. Now large amount of spend warmed is create by the industries. Thermoelectric generator is one of the system of the power generation. Thermoelectric generator is a system which change warmed straight forwardly into electricity by utilizing a procedure called the “Seebeck impact”. In this paper i will suggested a thermoelectric generator which will utilize waste spend heat sap b
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delightus peter, A. Jacks. "Waste heat energy harvesting using thermo electric generator." IOSR Journal of Engineering 3, no. 7 (2013): 01–04. http://dx.doi.org/10.9790/3021-03720104.

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Saputro, Herman, Laila Fitriana, Aris Purwanto, Riyadi Muslim, Fudhail A. Munir, and Wei-Cheng Wang. "Double chamber meso scale vortex combustor for micro scale electric generator based on thermo electric generator." Energy Reports 9 (December 2023): 5015–30. http://dx.doi.org/10.1016/j.egyr.2023.04.010.

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Ashraf, Waqar Muhammad, Ghulam Moeen Uddin, Muhammad Farooq, et al. "Construction of Operational Data-Driven Power Curve of a Generator by Industry 4.0 Data Analytics." Energies 14, no. 5 (2021): 1227. http://dx.doi.org/10.3390/en14051227.

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Constructing the power curve of a power generation facility integrated with complex and large-scale industrial processes is a difficult task but can be accomplished using Industry 4.0 data analytics tools. This research attempts to construct the data-driven power curve of the generator installed at a 660 MW power plant by incorporating artificial intelligence (AI)-based modeling tools. The power produced from the generator is modeled by an artificial neural network (ANN)—a reliable data analytical technique of deep learning. Similarly, the R2.ai application, which belongs to the automated mach
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Silaban, Jisro, Agus Almi Nasution, and Indra Roza. "PEMANFAATAN THERMO ELECTRIC GENERATOR DARI KONVERSI ENERGI PANAS MENJADI LISTRIK UNTUK CHARGER PONSEL." JiTEKH 8, no. 2 (2020): 71–77. http://dx.doi.org/10.35447/jitekh.v8i2.295.

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Thermo Electric generator element is a conversion system that converts heat into electricity by utilizing heat energy. This tool is designed which comes from wood fuel as a heat source, which can be converted by a Thermo Electric Generator (TEG) into electricity, because not all rural areas have electricity, so researchers use it as a back up for cellphone chargers. This research is a small scale only used for cellphone chargers, the results show that the temperature difference is a very influential factor in producing voltage output and electric current, the greater the temperature gradient (
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Rahman, Ataur, and Yusuf Abdi. "A Novel Electro Conductive Graphene/Silicon-Dioxide Thermo-Electric Generator." IOP Conference Series: Materials Science and Engineering 184 (March 2017): 012025. http://dx.doi.org/10.1088/1757-899x/184/1/012025.

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Suzuki, Hirokazu, Masafumi Yano, Hiroaki Tanaka, and Hiroshi Shimizu. "The Thermo-Electric Generator Using Phase Transitions for Low-Grade Heat." IEEJ Transactions on Electronics, Information and Systems 107, no. 11 (1987): 1027–34. http://dx.doi.org/10.1541/ieejeiss1987.107.11_1027.

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Chun, Jinsung, Ravi Anant Kishore, Prashant Kumar, et al. "Self-Powered Temperature-Mapping Sensors Based on Thermo-Magneto-Electric Generator." ACS Applied Materials & Interfaces 10, no. 13 (2018): 10796–803. http://dx.doi.org/10.1021/acsami.7b17686.

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Zhang, Zheng, Jiang Hong Wu, and Guang Shu Si. "Novel High-Intensity Thermoelectric Generator and its Application on Hybrid Electric Vehicle." Key Engineering Materials 336-338 (April 2007): 892–95. http://dx.doi.org/10.4028/www.scientific.net/kem.336-338.892.

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The hybrid electric vehicle (HEV) equipped both engine and generator is a transitional type from the internal-combustion engine vehicle to electric vehicle, but is a self-existent type, too. Applying a thermoelectric generator to recovery the waste heat of its engine, could not only improve the energy saving, but also the discharge / charge performance of the vehicle. For this purpose, the applicable generator must be a high-power and high-density one, which exchanges energy between the waste heat flow field and the conversion electric field; moreover, the temperature field is the coupling fie
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OMKAR, SAMANT, SAKPAL VIJAY, SHARMA VINAY, RAUT VINOD, and NAGPURE PROF.ANANT. "EXHAUST HEAT RECOVERY IN I. C. ENGINE BY USING THERMO ELECTRIC GENERATOR." JournalNX - A Multidisciplinary Peer Reviewed Journal 3, no. 4 (2017): 179–83. https://doi.org/10.5281/zenodo.1454056.

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 The increasingly worldwide problem regarding rapid economy development and a relative shortage of energy, the internal combustion engine exhaust waste heat and environmental pollution has been more emphasized heavily recently. Higher depletion rate and increasing price of fossil fuels have motivated many researchers to harness energy from the waste heat from internal combustion engines, and thus improve the overall efficiency. Traditionally, only 30 to 35 percent of energy is being utilized to run the vehicles and accessories mounted on the engine and left amount of energy is wasted in v
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ANIRUDDHA, A. KULKARNI, S. PATIL DIPAK, and R. ARAKERIMATH R. "A REVIEW OF WASTE HEAT RECOVERY BY USING THE HEAT PIPE AND THERMO-ELECTRIC GENERATOR." JournalNX - a Multidisciplinary Peer Reviewed Journal 3, no. 7 (2017): 47–52. https://doi.org/10.5281/zenodo.1420859.

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This paper continued a detail review of heat pipe and thermoelectric generator application in industrial, automobile and solar waste heat recovery. Each day new greenhouse gasemission further accelerates global warming. The exhaust heat recovery system by usingheat pipe and TEGsis topotentially reduce the greenhouse gases emission. The use of two specific technologies heat pipe and TEGs make passivesolid state system design. Heat pipe used in system consents more flexible design as TEG location not inadequate to exhaust pipe surface. The conversion efficiency of thermoelectric generator is fun
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39

Rajendran, Manivasagam, and S. P. Richard. "Electric power generation from heat energy using thermo electric generator and single ended primary induction converter." Research Journal of Engineering and Technology 11, no. 1 (2020): 01. http://dx.doi.org/10.5958/2321-581x.2020.00001.x.

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40

Fursenko, R. V., S. S. Minaev, and D. V. Chusov. "Development and experimental investigation of small-sized thermo-electric generator with diffusion combustion." Thermophysics and Aeromechanics 18, no. 1 (2011): 43–50. http://dx.doi.org/10.1134/s0869864311010069.

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41

Sudharshan, K. Y., V. Praveen Kumar, and Harish C. Barshilia. "Performance evaluation of a thermally concentrated solar thermo-electric generator without optical concentration." Solar Energy Materials and Solar Cells 157 (December 2016): 93–100. http://dx.doi.org/10.1016/j.solmat.2016.05.033.

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42

Liao, Li-Ling, Ming-Ji Dai, Chun-Kai Liu, and Kuo-Ning Chiang. "Thermo-electric finite element analysis and characteristic of thermoelectric generator with intermetallic compound." Microelectronic Engineering 120 (May 2014): 194–99. http://dx.doi.org/10.1016/j.mee.2013.09.014.

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43

Gomaa, Mohamed R., and Hegazy Rezk. "Passive cooling system for enhancement the energy conversion efficiency of thermo-electric generator." Energy Reports 6 (December 2020): 687–92. http://dx.doi.org/10.1016/j.egyr.2020.11.149.

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44

Paiva, Pedro, and Rui Castro. "Effects of Battery Energy Storage Systems on the Frequency Stability of Weak Grids with a High-Share of Grid-Connected Converters." Electronics 13, no. 6 (2024): 1083. http://dx.doi.org/10.3390/electronics13061083.

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To achieve an energy sector independent from fossil fuels, a significant increase in the penetration of variable renewable energy sources, such as solar and wind power, is imperative. However, these sources lack the inertia provided by conventional thermo-electric power stations, which is essential for maintaining grid frequency stability. In this study, a grid resembling Madeira Island’s power generation mix was modeled using the Matlab/Simulink platform. The model included solar, wind, hydro, and thermo-electric generation to accurately represent the energy landscape of Madeira Island. Three
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45

Naveen, Kumar, Setia Vaibhav, and Kumar Patel |. Satyam Upadhyay |. Saurabh Chauhan |. Prakhar Bajpai Sunil. "Analysis of Energy Generation from Exhaust of Automobile using Peltier Thermoelectric Generator." International Journal of Trend in Scientific Research and Development 3, no. 3 (2019): 749–51. https://doi.org/10.31142/ijtsrd22986.

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In recent past days, big deal of the automobile industry's RESEARCH and DEVELOPMENT Practicing on improving overall efficiency of vehicle. It has brought a major interest in the field of making internal combustion engines highly efficient 1 . In past days, only 25 30 energy is used in the vehicle and rest is exposed to surroundings. The useful energy is used to run the engine as well as generator. So the efficiency of those engine were very less. But the efficiency can be improved by utilizing waste heat that is exhaust of vehicle. One of the best technology that was found to be useful for
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46

Asteekar, R., S. Senthamil Selvan, and R. Janani. "Waste Heat Management System for Hybrid Vehicles Using Thermoelectric Generator." Advanced Science, Engineering and Medicine 12, no. 8 (2020): 1063–66. http://dx.doi.org/10.1166/asem.2020.2669.

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The present scenario is like that the need of the electrical energy is growing rapidly whereas the resource availability is lagging behind the load demand due to its extinction which leads to hinder our overall generation. It has been observed that the sustainable resources have great future potential to take lead to generate power and supply demand. In the present scenario there exists a few energy resources equivalent to fuel resource. So, there must be a technology to trap the waste and unutilized heat available in the atmosphere and utilize it into the form useful electrical energy. In the
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47

Khan, Mohd Quasim, S. Malarmannan, and G. Manikandaraja. "Power generation from waste heat of vehicle exhaust using thermo electric generator: A review." IOP Conference Series: Materials Science and Engineering 402 (September 20, 2018): 012174. http://dx.doi.org/10.1088/1757-899x/402/1/012174.

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48

Poignand, G., C. Olivier, G. Penelet, and P. Lotton. "Hysteretic behavior induced by an electroacoustic feedback loop in a thermo-acousto-electric generator." Applied Acoustics 105 (April 2016): 110–15. http://dx.doi.org/10.1016/j.apacoust.2015.11.001.

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49

Peng, Wenjie, and Daizhong Su. "Internet-based remote monitoring system of thermo-electric-generations with mobile communication technology." International Journal of Materials and Product Technology 53, no. 2 (2016): 154. http://dx.doi.org/10.1504/ijmpt.2016.076419.

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50

Nishanth, J. R., and B. Senthilkumar. "Hybrid energy harvesting by reverse di-electric on a piezo-electric generator with thermo-couple and monitoring in WSN." Automatika 65, no. 3 (2024): 738–48. http://dx.doi.org/10.1080/00051144.2024.2315407.

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