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
  • [11] 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
  • [12] Rational Liquid Cooling Systems of Internal Combustion Engines
    Moshentsev, Yuryi
    Gogorenko, Oleksiy
    Dvirna, Olha
    [J]. ADVANCES IN SCIENCE AND TECHNOLOGY-RESEARCH JOURNAL, 2022, 16 (01) : 158 - 169
  • [13] Simulation study on oscillating cooling characteristics in piston oil cooling gallery of internal combustion engines
    [J]. Dong, Fei (jsdxdf@163.com), 1600, Science Press (38):
  • [14] Experimental analysis of micro-cogeneration units based on reciprocating internal combustion engine
    Possidente, R.
    Roselli, C.
    Sasso, M.
    Sibilio, S.
    [J]. ENERGY AND BUILDINGS, 2006, 38 (12) : 1417 - 1422
  • [15] Micro arc oxidation of pistons of internal combustion engines
    Chigrinova, N.M.
    [J]. 2001, Izdatel'stvo Mashinostroenie
  • [16] Intake air path diagnostics for internal combustion engines
    Franchek, Matthew A.
    Buehler, Patrick J.
    Makki, Imad
    [J]. JOURNAL OF DYNAMIC SYSTEMS MEASUREMENT AND CONTROL-TRANSACTIONS OF THE ASME, 2007, 129 (01): : 32 - 40
  • [17] Enhancement of performance of gas turbine engines by inlet air cooling and cogeneration system
    Najjar, YSH
    [J]. APPLIED THERMAL ENGINEERING, 1996, 16 (02) : 163 - 173
  • [18] A Model Predictive Controller for the Cooling System of Internal Combustion Engines
    Castiglione, Teresa
    Bova, Sergio
    Belli, Mario
    [J]. 71ST CONFERENCE OF THE ITALIAN THERMAL MACHINES ENGINEERING ASSOCIATION (ATI 2016), 2016, 101 : 582 - 589
  • [19] Design and Development of Cooling Fans for Internal Combustion Engines.
    Esche, Dieter
    [J]. MTZ Motortechnische Zeitschrift, 1976, 37 (10) : 399 - 403
  • [20] Control of Spray Evaporative Cooling in Automotive Internal Combustion Engines
    Jafari, S.
    Dunne, J. F.
    Langari, M.
    Yang, Z.
    Pirault, J-P
    Long, C. A.
    Jose, J. Thalackottore
    [J]. JOURNAL OF THERMAL SCIENCE AND ENGINEERING APPLICATIONS, 2018, 10 (04)
12345