Differential thermodynamic machine with a cycle of eight thermodynamic transformations, and control method

A technology of thermodynamic cycle and process control, applied in the direction of hot gas variable displacement engine devices, mechanical equipment, special engines, etc., can solve problems such as not considering thermal machines

Inactive Publication Date: 2016-07-20
ASSOCIAOS PARANAENSE DE CULTURA APC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0009] On the other hand, the prior art reveals a closed circuit machine, which however does not comprise four change cycles, but performs eight process cycles by a new concept in a differential structure, of which eight with mass transfer The processing cycle is maintained in pairs and follows the concept of Carnot thermodynamics, but it has to take into account the weight change in the equation, offering a possibility not to take into account the existing thermal machines, i.e., the concept of this technology provides an effect The new condition of performance, which allows the best efficiency of the machine, makes the income limit no longer have a unique and unique dependence on temperature, but considers the mass transfer rate between chamber transitions, so that the income condition is replaced by a new factor

Method used

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  • Differential thermodynamic machine with a cycle of eight thermodynamic transformations, and control method
  • Differential thermodynamic machine with a cycle of eight thermodynamic transformations, and control method
  • Differential thermodynamic machine with a cycle of eight thermodynamic transformations, and control method

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Embodiment Construction

[0013] To facilitate understanding of this technology, formulas, descriptions supporting this patent, and diagrams and graphs to facilitate a full understanding of the principles will be provided.

[0014] In Fig. 01 is depicted the Carnot primordial (1), the flow chart of the Carnot engine and other thermal engines operating in a four-step thermodynamic transformation loop (2), the cycle diagram of a Carnot engine with four transformations (3) .

[0015] In Fig. 02 a differential machine (4) is depicted, which consists of two thermodynamic conversion chambers (5) and (6), each of which consists of three parts, respectively (8), (9), (10 ) and (11), (12), (13), each part includes a movable controllable piston, each chamber includes gas containers (18) and (19), passages (20) and (21) through which the working gas flows ), the gas mass transfer element (7), the control valve assembly (14) and (15), the inertia-operated valve (16) that releases the power drive unit, the power d...

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Abstract

The present invention refers to the technical field of thermodynamic engines, and more specifically to a heat engine that operates with gas in closed loop in differential configuration which is characterized by performing a thermodynamic cycle eight transformations or otherwise explain, it performs two thermodynamic cycles simultaneously, each with four interdependent, additional transformations, two of these transformations "isothermal" and two "adiabatic" in mass transfer in phases of adiabatic processing to provide a new performance curve no longer dependent solely on temperature but the mass transfer rate which allows the construction of machines with high yields and low thermal differentials.

Description

technical field [0001] The present invention relates to the technical field of thermodynamic engines, in particular to a thermal engine operating gas in a closed cycle in a non-differential configuration, characterized in that by performing a thermodynamic cycle eight conversions or otherwise it is performed simultaneously Two thermodynamic cycles, each with four interdependent, additional transitions, two of which are "isothermal" and two adiabatic in mass transfer. [0002] This machine operates according to the principles of thermodynamics, in particular according to the Nicholas Sadi-Carnot principle, or the Carnot principle commonly used, in the scientific community, the rules and principles of which do not change: "For the continuous conversion of heat to work, a system must A cycle is continuously carried out between the heat source and the cool source. In each cycle, a certain amount of heat withdrawn from the heat source (useful energy), a part is converted into work,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02G1/04F02G1/06
CPCF02G1/043F02G1/05F02G1/055F02G2244/10F02G2250/09F02G2270/90F02G1/044F02G2250/00F02G2270/00
Inventor 马诺·伊奥赫克
Owner ASSOCIAOS PARANAENSE DE CULTURA APC
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