Experimental study of Dual-cycle Thermal Management System for Engineering Radiator-Reference-Cited by-同舟云学术

Experimental study of Dual-cycle Thermal Management System for Engineering Radiator

Published:2024-05-07 Issue: Volume: Page:
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Author:

Yu Chao¹,Zhang Wenbao¹,Wang Guangyi¹,Huang Mian¹

Affiliation:

1. Chinese Academy of Sciences

Abstract

With the increasing demand for heat dissipation of engineering vehicles, a dual-cycle cooling system is introduced in this paper to prevent the adverse effects of engineering vehicles' equipment when operating at the overheating temperature. The performance of the new system is analyzed through tests, and the results show that the dual-cycle cooling system can meet the thermal balance requirements of the engineering vehicle during the shovel operation. Compared with the traditional cooling system, the new cooling system improved performance in terms of volume, engine energy consumption and working oil efficiency. The oil consumption of a wheel loader using the dual-cycle cooling system is reduced by 1% per hour, and the temperature of its transmission oil and hydraulic oil is reduced by more than 10 ℃. The new cooling system has bright future in energy saving and emission reduction of engineering vehicles.

Publisher

Springer Science and Business Media LLC

Reference19 articles.

1. Pang H, Brace CJ. Review of Engine Cooling Technologies for Modern Engines. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering. 2004;218:1209-15.

2. Ap N S, Tarquis M. Innovative Engine Cooling Systems Comparison. SAE Technical Paper: 2005.

3. Lin W, Sunden B. Vehicle Cooling Systems for Reducing Fuel Consumption and Carbon Dioxide: Literature Survey. SAE Technical Paper: 2010.

4. Klett J, Ott R, McMillan A. Heat Exchangers for Heavy Vehicles Utilizing High Thermal Conductivity Graphite Foams. SAE Technical Paper: 2000.

5. Ng EY, Johnson PW, Watkins S, Grant L. Wind-Tunnel Tests of Vehicle Cooling System Performance at High Blockage. SAE Technical Paper: 2000.