Abstract
The article presents theoretical and experimental analysis of heterogeneous lyophobic systems (HLS) useful for nontraditional high-performance HLS-based thermomechanical dissipation, accumulation and energy transformation devices development. Not typical for conventional working mediums (gas/vapor) HLS compression/decompression thermal effects are examined and model which allows to predict these effects is presented. Also the operational features of new working mediums under adiabatic conditions, including their numerous cycling, are investigated.
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