Methodological specifics of the study of micro HPP based on internal combustion engines with air cooling and cogeneration

被引:0
|
作者
P. A. Shchinnikov
V. G. Tomilov
D. S. Sinelnikov
机构
[1] Novosibirsk State Technical University,
来源
Thermophysics and Aeromechanics | 2017年 / 24卷
关键词
micro heat power plants; cogeneration; internal combustion engine (ICE); air-cooling; methodology; efficiency;
D O I
暂无
中图分类号
学科分类号
摘要
The article considers some aspects of the research methodology of micro heat power plants based on internal combustion engines with air cooling and cogeneration based on energy balance equations and the laws of heat transfer. The research is conducted for such a setup based on the Hitachi internal combustion engine with 2.4 kW capacity. It has shown the efficiency of cogeneration use in the form of useful heat flow from air, cooling the cylinder head, with its further heating by utilizing the heat of flue gases in an additional plate heat exchanger. It has been shown that the cogeneration can save fuel costs 3–10 times compared with heat guns, depending on the duration of the setup use.
引用
收藏
页码:159 / 164
页数:5
相关论文
共 50 条
  • [1] Methodological specifics of the study of micro HPP based on internal combustion engines with air cooling and cogeneration
    Shchinnikov, P. A.
    Tomilov, V. G.
    Sinelnikov, D. S.
    [J]. THERMOPHYSICS AND AEROMECHANICS, 2017, 24 (01) : 159 - 164
  • [2] A new methodological approach of sizing and operation optimization for cogeneration by internal combustion engines
    Dupleac, R
    Tazerout, M
    Leduc, B
    [J]. OCOS 2000: FROM THERMO-ECONOMICS TO SUSTAINABILITY, PTS 1-4, 2000, : 671 - 678
  • [3] Implementation of energy efficiency programs using cogeneration based on internal combustion engines
    Minciuc, Eduard
    Patrascu, Roxana
    Darie, George
    Diaconescu, Ioana
    [J]. PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON BUSINESS EXCELLENCE, 2017, 11 (01): : 209 - 217
  • [4] Review of efficiencies of cogeneration units using internal combustion engines
    Vukasinovic, Vladimir
    Gordic, Dusan
    Babic, Milun
    Jelic, Dubravka
    Koncalovic, Davor
    [J]. INTERNATIONAL JOURNAL OF GREEN ENERGY, 2016, 13 (05) : 446 - 453
  • [5] COGENERATION SYSTEMS USING INTERNAL COMBUSTION ENGINES AND ABSORPTION CHILLERS
    Scaramussa, Marcos, Jr.
    Barroco, Felipe
    Alexandre, Jos
    Silva, Julio
    Torres, Ednildo
    Silva, Marcelo
    [J]. PROCEEDINGS OF THE 4TH INTERNATIONAL CONFERENCE ON ENERGY & ENVIRONMENT (ICEE 2019): BRINGING TOGETHER ENGINEERING AND ECONOMICS, 2019, : 495 - 500
  • [6] Optimization of Cooling System for Internal Combustion Engines
    Tarulescu, Radu
    Tarulescu, Stelian
    Soica, Adrian
    [J]. PROCEEDINGS OF THE 4TH INTERNATIONAL CONGRESS OF AUTOMOTIVE AND TRANSPORT ENGINEERING (AMMA 2018), 2019, : 535 - 541
  • [7] Cogeneration Unit Based on Air-Cooled Internal Combustion Engine
    Sinelnikov, D. S.
    Mikhaylenko, A., I
    Shchinnikov, P. A.
    [J]. 2016 11TH INTERNATIONAL FORUM ON STRATEGIC TECHNOLOGY (IFOST), PTS 1 AND 2, 2016,
  • [8] MARINE INTERNAL COMBUSTION ENGINES. PHYSICOCHEMICAL STUDY OF COOLING WATER
    Luisa Fernandez-Feal, Ma
    Mercedes del Coro Fernandez-Feal, Ma
    Sanchez-Fernandez, Luis R.
    Seoane-Lopez, Santiago
    Ramon Perez-Prado, Jose
    [J]. DYNA, 2014, 89 (01): : 69 - 76
  • [9] Researches on Cooling Air Flow Control Devices Using on Cars with Internal Combustion Engines
    Dascalescu, Spiridon-Cristian-Dan
    Receanu, Marius
    Dimitriu, Laurentiu
    Vornicu-Albu, Liliana
    [J]. CONAT 2016: INTERNATIONAL CONGRESS OF AUTOMOTIVE AND TRANSPORT ENGINEERING, 2017, : 287 - 294
  • [10] Optimising the operation of small cogeneration units with an internal combustion piston engines
    Baxant, Petr
    Toman, Petr
    [J]. PROCEEDINGS OF THE 6TH INTERNATIONAL SCIENTIFIC CONFERENCE ELECTRIC POWER ENGINEERING 2005, 2005, : 47 - 50
12345