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The formulation of mathematical model for the computational simulation of transient temperature response and phase change of refrigerant in a vapor condenser of an automotive air conditioning unit is described. A demonstrative computational simulation of a sample air cooled vapor condenser charged with Freon 12 is presented. The computational analysis predicts an initial surge and followed by an oscillation of the condensate outflow rate from the condenser when the air-conditioning unit is started, and the tube length required for complete condensation of inflow vapor is a maximum value at start up. The rise of the temperatures of the condenser tubes and cooling air flow during the start-up and load change operations rate found to be gradual but the scale of these temperature changes are considered small.

A technology assessment of engines, power source and electrical technologies that can meets the needs of the future U.S. Army (“Army 21”) for cost-effective generator sets is made. Considered in this assessment are: diesel engines; stratified-charge, spark-ignited engines; homogeneous-charge, spark-ignited engines; gas turbine engines; and Stirling engines. Direct energy conversion devices including batteries, fuel cells, thermal-to-electric generators, and nuclear powered systems are also considered. In addition, potential advances in electric alternators and power conditioning, applications of networking, and noise reduction methods are discussed for possible application to the Army environment. Recommendations are made for the potential application of the different technologies for the needs of Army 21.