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location：Home > 2021.Vol4.Sep.NO3 > Application of high-efficiency thermal power generation system in ship energy saving

2021.Vol4.Sep.NO3
Title: Application of high-efficiency thermal power generation system in ship energy saving Name: Uttam Ghosh Company: School of Applied Computational Sciences (SACS), Meharry Medical College, TN, USA Abstract: Due to the increase in the carrying tonnage of ships and the rapid development of ship technology, in order to save energy and reduce operating costs, the high-efficiency thermal energy system adopts two modes of operation, off-grid and on-grid. Through the respective power supply advantages of off-grid and on-grid, according to The actual situation of ship navigation adopts the corresponding system operation mode, in terms of power supply effect and power supply. The high-efficiency thermal power generation system proposed in this paper not only has a high power supply but also a relatively stable power supply system. Compared with the energy generated by burning gasoline, the grid-connected operation method is more economical and reliable, and it reduces the wear of various equipment of the ship and the need for the ship’s periodic navigation. Oil consumption, and the high-efficiency thermal energy system uses a silicon controlled rectifier inverter system. The experimental results show that the high-efficiency thermal power generation system enables the ship’s electrical equipment to be maintained in time. The inverter controls the output voltage of the power supply to increase the power supply, which increases the propulsion power of the ship’s main engine and provides a stable current for the ship’s power grid. Keyword: high-efficiency thermal power generation; power generation system; ship energy saving; energy saving application DOI: 10.12250/jpciams2021090301 Citation form: Uttam Ghosh.Application of high-efficiency thermal power generation system in ship energy saving [J]. Computer Informatization and Mechanical System,2021,Vol.4,pp.7-9

2021.Vol4.Sep.NO3

Title: Application of high-efficiency thermal power generation system in ship energy saving
Name: Uttam Ghosh
Company: School of Applied Computational Sciences (SACS), Meharry Medical College, TN, USA
Abstract:
Due to the increase in the carrying tonnage of ships and the rapid development of ship technology, in order to save energy and reduce operating costs, the high-efficiency thermal energy system adopts two modes of operation, off-grid and on-grid. Through the respective power supply advantages of off-grid and on-grid, according to The actual situation of ship navigation adopts the corresponding system operation mode, in terms of power supply effect and power supply. The high-efficiency thermal power generation system proposed in this paper not only has a high power supply but also a relatively stable power supply system. Compared with the energy generated by burning gasoline, the grid-connected operation method is more economical and reliable, and it reduces the wear of various equipment of the ship and the need for the ship’s periodic navigation. Oil consumption, and the high-efficiency thermal energy system uses a silicon controlled rectifier inverter system. The experimental results show that the high-efficiency thermal power generation system enables the ship’s electrical equipment to be maintained in time. The inverter controls the output voltage of the power supply to increase the power supply, which increases the propulsion power of the ship’s main engine and provides a stable current for the ship’s power grid.
Keyword: high-efficiency thermal power generation; power generation system; ship energy saving; energy saving application
DOI: 10.12250/jpciams2021090301
Citation form: Uttam Ghosh.Application of high-efficiency thermal power generation system in ship energy saving [J]. Computer Informatization and Mechanical System,2021,Vol.4,pp.7-9

Reference:

[1] TAO Jiayin, ZHAO Wu, LI Xianghui, et al. .Development and Experiment of Waste Heat Recovery Combined Turbines for Marine Diesel Engines[J]. Energy Conservation Technology, 2020, 38(1):26-31.

[2] LI Bingkun, YUAN Chengqing, SUN Yuwei, et al. Application of Multiple Thermodynamic Cycles in Marine Thermal Power Generation System[J]. Ship Engineering, 2019, 41(8):95-103+115.

[3] ZHANG Kun, WEN Huabing, LIU Wei, et al. Analysis of Application of Inerter-rubber Vibration Isolators in Marine Power Machinery[J]. Noise and Vibration Control, 2020, 40(2):215-220.

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