Про особливості розвитку робіт по створенню термоелектричних рекуператорів для транспортних засобів

Автор(и)

  • Л.І. Анатичук 1. Інститут термоелектрики НАН та МОН України, вул. Науки, 1, Чернівці, 58029, Україна; 2. Чернівецький національний університет імені Юрія Федьковича, вул. Коцюбинського 2, Чернівці, 58012, Україна
  • Р.В. Кузь 1. Інститут термоелектрики НАН та МОН України, вул. Науки, 1, Чернівці, 58029, Україна; 2. Чернівецький національний університет імені Юрія Федьковича, вул. Коцюбинського 2, Чернівці, 58012, Україна

Ключові слова:

термоелектричний генератор, вихлопний газ, утилізація тепла

Анотація

У роботі проведено аналіз публікацій, патентів, доповідей на наукових конференціях, що стосуються створення термоелектричних рекуператорів для утилізації відходів тепла від трансопртних засобів. Зроблено висновки про перспективи подальшого розвитку таких досліджень. Бібл. 143, рис. 5.

The analysis of publications, patents, reports at scientific conferences related to the creation of thermoelectric recuperators for the utilization of heat from vehicles is carried out. Conclusions are made on the prospects for further development of such studies. Bibl. 148, Fig. 5.

 

Посилання

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126. DE102006057662 (A1), Germany, Int. Cl. H02N11/00; H02N11/00; Thermoelectric generator arrangement for internal combustion engine of vehicle, has base plates positively connected with hot and cold upper surfaces respectively, where one plate has dimension that is three millimeter longer than matrix / Richter Rainer [De]; Schroeter Gunter [De]; Hiebl Alois [De]; Publ. 05.02.2009, Applic. 31.07.2007, 6p.

127. DE102008030758 (A1), Germany, Int. Cl. H02N11/00; H01L35/00; H02N11/00; H01L35/00; Vehicle, has combustion engine and thermoelectric generator and heat exchanger has heating elements, which are arranged in exhaust gas channel of combustion engine and is pass or flow through exhaust gas / Schaab Alexander [De]; Publ. 22.01.2009, Applic. 28.06.2008, 7p.

128. 15. Pat. DE102007005520 (A1), Germany, Int. Cl. H01L35/00; Vehicle having a thermoelectric generator / Richter Rainer [De]; Eder Andreas [De]; Publ. 07.08.2008, Applic. 03.02.2007, 7p.

129. DE102006039024 (A1), Germany, Int. Cl. H01L35/32; F01N5/02; F02G5/02; H01L35/34; H01L35/32; F01N5/00; F02G5/00; H01L35/00; Thermo-generator for use in e.g. motor vehicle, for generating current from heat, has thermoelectric units arranged behind each other in axial direction of delivery pipe and insulated against each other at front sides by insulation layers; Weber Klaus [De]; Muchilo Dimitry [De]; Platzek Dieter [De]; Borath Roland [De]; Publ. 21.02.2008;

130. DE102006009081 (A1), Germany, Int. Cl. F17C13/00; F17C13/00; Cryo fuel tank's boil-off gas dissipating device for motor vehicle, has thermoelectric generator for obtaining electrical energy, where warm side of generator is supplied with heat and other side with cold boil-off gas / Richter Rainer [De]; Schwarz Carsten [De]; Schreiner Michael [De]; Tonhauser Johann [De]; Publ. 30.08.2007, Applic. 28.02.2006, 3 p.

131. JP2008177301 (A), Japan, Int. Cl. H01L35/30; F01N5/02; F01P1/06; H02N11/00; H01L35/28; F01N5/00; F01P1/00; H02N11/00; Thermoelectric generator / Iwamoto Shoichi; Publ. 31.07.2008, 19 p.

132. JP2007211748 (A), Japan, Int. Cl. F02G5/04; F01N5/02; F28D9/02; H02N11/00; F02G5/00; F01N5/00; F28D9/00; H02N11/00; Heat exchanger and thermoelectric generator / Matsushita Akihisa; Publ. 23.08.2007, 14 p.

133. JP2007014161 (A), Japan, Int. Cl. H02N11/00; F01N5/02; H01L35/28; H01L35/30; H02N11/00; F01N5/00; H01L35/28; Thermoelectric generator for vehicle / Tsuchiya Jiro; Publ. 18.01.2007, 13 с.

134. JP2006220005 (A), Japan, Int. Cl. F01N5/02; F01N5/04; F02B37/00; F02B41/10; F02G5/02; F02G5/04; H01L35/30; H02N11/00; F01N5/00; F02B37/00; F02B41/00; F02G5/00; H01L35/28; H02N11/00; Thermoelectric generator for vehicle / Odawara Tomoyuki; Kubo Masahiko; Shii Kentaro; Publ. 24.08.2006, 8 p.

135. JP2007006619 (A), Japan, Int. Cl. H02N11/00; F01N5/02; H01L35/30; H02N11/00; F01N5/00; H01L35/28; Thermoelectric generator / Hayashi Takashi; Iwamoto Shoichi; Publ. 11.01.2007, 18 с.

136. JP2007014084 (A), Japan, Int. Cl. H02N11/00; H01L35/28; H02N11/00; H01L35/28; Thermoelectric generator / Tsuchiya Jiro; Publ. 18.01.2007, 14 p.

137. JP2006207428 (A), Japan, Int. Cl. F01N5/02; F02G5/04; H01L35/30; H02N11/00; F01N5/00; F02G5/00; H01L35/28; H02N11/00; Thermoelectric generator / Hayashi Takashi; Publ. 10.08.2006, 19 p.

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139. CN101277082 (A), China, Int. Cl. B60K13/04; H02N11/00; B60R16/02; H01L35/28; H01L35/30; H01L35/32; H02N10/00; B60K13/00; H02N11/00; B60R16/02; H01L35/28; H01L35/32; H02N10/00; Thermoelectric generator for internal combustion engine / Shimoji Kouji [Jp]; Suzuki Kouichi [Jp]; Matsubara Shinya [Jp]; Publ. 01.10.2008, Applic. 04.02.2005, 13 с.

140. CN101313420 (A), China, Int. Cl. H01L35/30; F02G5/04; H01L35/28; F02G5/00; Thermoelectric power generator for variable thermal power source / Todd Crane Douglas [Us]; Publ. 26.11.2008, Applic. 28.06.2005.

141. CN1667937 (A), China, Int. Cl. H01L35/00; H02N11/00; H01L35/00; H02N11/00; Built-in type high-density thermoelectric generator / Zhang Zheng [Cn]; Publ. 14.09.2005, Applic. 25.02.2005; 16

142. KR20030057985 (A), Korea, Int. Cl. H02N11/00; H02N11/00; (IPC1-7): H02N11/00; Thermoelectric semiconductor generator apparatus using exhaust gas waste heat / Yoo Won Ju [Kr]; Publ. 07.07.2003, Applic. 29.12.2001; 6 p.

143. EP1475532 (A2), Int. Cl. F01N5/02; F01P3/20; F01P7/16; F02B29/04; F02G5/02; H01L35/00; H01L35/30; F01N5/00; F01P3/20; F01P7/14; F02B29/00; F02G5/00; H01L35/00; H01L35/28; Thermoelectric generating device / Yamaguchi Hiroo [Jp]; Yamanaka Yasutoshi [Jp]; Publ. 10.11.2004, Applic. 03.05.2004; 21 p.

144. EP1897153 (A2), Int. Cl. H01L35/30; F02G5/04; H01L35/28; F02G5/00; Thermoelectric power generator with intermediate loop / Bell Lon E [Us]; Crane Douglas Todd [Us]; Publ. 12.03.2008, Applic. 28.06.2005; 24 p.

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146. WO2007/048392, Int. Cl. F28F32/12, F28F3/04, H01L35/30; Exhaust gas heat exchanger for a thermoelectric generator and thermoelectric generator / Stelter Michael [De]; Budde Joern [De]; Publ. 03.05.2007, Applic. 26.10.2005; 30 p.

147. WO2007002891 (A2), Int. Cl. H01L35/30; H01L35/28; Thermoelectric power generator with intermediate loop / Bell Lon E [Us]; Crane Douglas Todd [Us]; Publ. 04.01.2007, Applic. 28.06.2005; 24 p.

148. Pat. WO9850686 (A1), Int. Cl. H01L35/30; H01L35/28; Thermoelectric power generator with intermediate loop / Bell Lon E [Us]; Crane Douglas Todd [Us]; Publ. 12.11.1998, Applic. 9.05.1997; 46 p.

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Анатичук, Л., & Кузь, Р. (2024). Про особливості розвитку робіт по створенню термоелектричних рекуператорів для транспортних засобів . Термоелектрика, (5), 41–62. вилучено із http://jte.ite.cv.ua/index.php/jt/article/view/113

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