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Modeling, Validation and Analysis of an Advanced Thermal Management System for Conventional Automotive PowertrainsAgarwal, Neeraj R. 17 July 2012 (has links)
No description available.
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Development of model for large-bore engine cooling systemsKendrick, Clint Edward January 1900 (has links)
Master of Science / Department of Mechanical and Nuclear Engineering / Kirby S. Chapman / The purpose of this thesis is to present on the development and results of the cooling
system logic tree and model developed as part of the Pipeline Research Council International,
Inc (PRCI) funded project at the Kansas State National Gas Machinery Laboratory. PRCI noticed
that many of the legacy engines utilized in the natural gas transmission industry were plagued by
cooling system problems.
As such, a need existed to better understand the heat transfer mechanisms from the
combusting gases to the cooling water, and then from the cooling water to the environment. To
meet this need, a logic tree was developed to provide guidance on how to balance and identify
problems within the cooling system and schedule appropriate maintenance.
Utilizing information taken from OEM operating guides, a cooling system model was
developed to supplement the logic tree in providing further guidance and understanding of
cooling system operation. The cooling system model calculates the heat loads experienced within
the engine cooling system, the pressures within the system, and the temperatures exiting the
cooling equipment. The cooling system engineering model was developed based upon the fluid
dynamics, thermodynamics, and heat transfer experienced by the coolant within the system. The
inputs of the model are familiar to the operating companies and include the characteristics of the
engine and coolant piping system, coolant chemistry, and engine oil system characteristics.
Included in the model are the various components that collectively comprise the engine cooling
system, including the water cooling pump, aftercooler, surge tank, fin-fan units, and oil cooler.
The results of the Excel-based model were then compared to available field data to
determine the validity of the model. The cooling system model was then used to conduct a
parametric investigation of various operating conditions including part vs. full load and engine
speed, turbocharger performance, and changes in ambient conditions. The results of this
parametric investigation are summarized as charts and tables that are presented as part of this
thesis.
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