T.H. Mitchell scite author profile

The automotive cooling system has unrealized potential to improve internal combustion engine performance through enhanced coolant temperature control and reduced parasitic losses. Advanced automotive thermal management systems use controllable actuators (e.g., smart thermostat valve, variable speed water pump, and electric radiator fan) that must work in harmony to control engine temperature. One important area of cooling system operation is warm-up, during which fluid flow is regulated between the bypass and radiator loops. A fundamental question arises regarding the usefulness of the common thermostat valve. In this paper, four different thermostat configurations were analyzed, with accompanying linear and nonlinear control algorithms, to investigate warm-up behaviors and thermostat valve operations. The configurations considered include factory, two-way valve, three-way valve, and no valve. Representative experimental testing was conducted on a steam-based thermal bench to examine the effectiveness of each valve configuration in the engine cooling system. The results clearly demonstrate that the three-way valve has the best performance as noted by the excellent warm-up time, temperature tracking, and cooling system power consumption.

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Adaptive and Robust Control for Thermal Management Systems

Salah¹,

Mitchell²,

Wagner³

et al. 2006

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Optimizing R & amp;H and NVH Performances Early in the Design Process via Multi Body Simulation

Carlo

Diglio

Conti

et al. 2009

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T.H. Mitchell

Nonlinear-Control Strategy for Advanced Vehicle Thermal-Management Systems

A Smart Multiple-Loop Automotive Cooling System—Model, Control, and Experimental Study

Automotive Thermostat Valve Configurations: Enhanced Warm-Up Performance

Adaptive and Robust Control for Thermal Management Systems

Optimizing R & amp;H and NVH Performances Early in the Design Process via Multi Body Simulation

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