Thermogravitational Cycles: Theoretical Framework and Example of an Electric Thermogravitational Generator Based on Balloon Inflation/Deflation

Thermogravitational Cycles: Theoretical Framework and Example of an Electric Thermogravitational Generator Based on Balloon Inflation/Deflation

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Several studies have involved a combination of heat and gravitational energy exchanges to create novel heat engines.A common theoretical framework is developed here to describe thermogravitational cycles which have the same efficiencies as the Carnot, Rankine, or Brayton cycles.Considering a working fluid enclosed in a balloon inside a column filled with a transporting fluid, a cycle is composed of four steps.Starting from the top of the column, the balloon goes down by gravity, receives heat from a hot source at the bottom, then rises and Canvas Mesh Athletic Running Shoes delivers heat to a cold source at the top.

Unlike classic power cycles which need external work to operate the compressor, thermogravitational cycles can operate as a “pure power cycle„ where no external work is needed to drive the cycle.To illustrate this concept, the prototype of a thermogravitational electrical generator is presented.It uses a hot source of wella color touch 77 45 average temperature near 57 °C and relies on the gravitational energy exchanges of an organic fluorinated fluid inside a balloon attached to a magnetic marble to produce an electromotive force of 50 mV peak to peak by the use of a linear alternator.This heat engine is well suited to be operated using renewable energy sources such as geothermal gradients or focused sunlight.