[10] viXra:1311.0169 [pdf] submitted on 2013-11-25 14:52:28
Authors: Etkin V.A.
Comments: 50 Pages.
We will try to find out the minimum volume of corrective amendments, which are necessary for bringing in thermodynamics to make its method suitable for research enough wide range of scientific disciplines, processes and systems.
Category: Thermodynamics and Energy
[9] viXra:1311.0136 [pdf] submitted on 2013-11-19 04:18:53
Authors: Etkin V.A.
Comments: 10 Pages.
The objective of this book is to generalize the methods pertaining to thermodynamics of irreversible processes and to create on this basis energodynamics – a fundamental discipline studying the general laws covering nonstatic (running with finite rate) processes of energy transfer and conversion in any forms regardless of the field of knowledge they belong to.
Category: Thermodynamics and Energy
[8] viXra:1311.0128 [pdf] submitted on 2013-11-17 18:09:19
Authors: Etkin V.A.
Comments: 9 Pages. In Russian
It is shown, that creation of the machines showing reception of surplus power at the expense of force fields energy, does not contradict physics laws. Specificity of such devices is analyzed and bases of their theory are stated.
Category: Thermodynamics and Energy
[7] viXra:1311.0100 [pdf] submitted on 2013-11-15 06:04:47
Authors: Etkin V.A.
Comments: 12 Pages. In Russian
It is shown, that the existing theory of irreversible processes not applicability
to biological processes of energy transformation. It is offered way of overcoming of arising difficulties.
Category: Thermodynamics and Energy
[6] viXra:1311.0089 [pdf] replaced on 2014-04-07 11:37:48
Authors: Remi Cornwall
Comments: 12 Pages. From Thesis. New version with slight improvements.
This paper presents a summary of research to utilise the massive amount of low grade heat energy, for instance which exists in the worlds oceans, by a new type of magnetic cycle. Developed herein are methods based on 2nd order phase changes that make it possible to achieve high efficiency despite small temperature differences with the reservoir. Ferrofluids displaying temporary magnetic remanence are an almost perfect embodiment of the working substance for these cycles. Standard Kinetic Theory, Thermodynamic and Electrodynamic analysis and experiment validates the new cycle.
Category: Thermodynamics and Energy
[5] viXra:1311.0080 [pdf] submitted on 2013-11-11 13:33:31
Authors: Etkin V.A.
Comments: 9 Pages. In Russian
The conclusion of the interconnected transfer processes kinetic equations is offered from the first principles of energodynamics and is shown, that phenomenological laws of independent processes contain in contrary to Onsager's postulate unique (resultant) force whose disappearance conducts to the termination of this process. It allows to reduce number of phenomenological coefficients in them with n (n+1)/2 to n and to extend the thermodynamic theory of the transfer processes to nonlinear systems and the conditions far from equilibrium
Category: Thermodynamics and Energy
[4] viXra:1311.0078 [pdf] replaced on 2014-09-05 14:41:42
Authors: Remi Cornwall
Comments: 92 Pages. Thesis. New version with newer refs, B-H (M-H) curve for ferrofluid loss, some cosmetic changes and minor change at start of chapter 4.
The objective of this research is to utilise the massive amount of low grade heat energy, for instance which exists in the worlds oceans, by a new type of magnetic cycle. Developed herein are methods based on 2nd order phase changes that make it possible to achieve high efficiency despite small temperature differences with the reservoir. Ferrofluids displaying temporary magnetic remanence are an almost perfect embodiment of the working substance for these cycles. Standard Kinetic Theory, Thermodynamic and Electrodynamic analysis validates the new cycle. Experiment, both physical and by numerical solution have laid the foundations for this work showing: that a property of the system is a strong function of temperature, that a temporary independent flux remains after magnetisation and that a cancellation scheme is required to achieve energy transduction in excess of the magnetisation energy input. This research shows that a new type of heat engine/refrigerator/heat pump is possible.
Category: Thermodynamics and Energy
[3] viXra:1311.0077 [pdf] replaced on 2014-04-07 10:57:01
Authors: Remi Cornwall
Comments: 14 Pages. New version with three new refs. and some improvements
This paper presents a summary of research to utilise the massive amount of low grade heat energy, for instance which exists in the worlds oceans, by a new type of magnetic cycle. Developed herein are methods based on 2nd order phase changes that make it possible to irrefutably build a Maxwell Demon. Ferrofluids displaying temporary magnetic remanence are an almost perfect embodiment of the working substance for these cycles. Standard Kinetic Theory, Thermodynamic, Electrodynamic analysis and experiment validates the new cycle.
Category: Thermodynamics and Energy
[2] viXra:1311.0020 [pdf] submitted on 2013-11-04 03:08:30
Authors: Etkin V.A.
Comments: 11 Pages.
Present-day thermodynamics has long outgrown the initial frames of the heat-engine
theory and transmuted into a rather general macroscopic method for studying kinetics
of various transfer processes in their inseparable connection with the thermal form of
motion. However its primary notions and mathematical instrument as before based on
concepts of thermostatics, to which time, speed and productivity of processes are alien,
and on the equations transitory in case of irreversible processes in inequalities. It is
offered essentially other approach at which the thermostatics equations follow from
thermokinetics of spatially non-uniform systems.
Category: Thermodynamics and Energy
[1] viXra:1311.0003 [pdf] submitted on 2013-11-01 05:02:15
Authors: Etkin V.A.
Comments: 238 Pages. In Russian
The monography gives the developed statement of two new directions of modern thermodynamics - theories of irreversible processes and thermodynamics in finite times which concern classical thermodynamics as dynamics to a statics. It is distinguished by consistently thermodynamic substantiation of all positions of the theory of irreversible processes and its generalisation on nonlinear systems and the conditions far from equilibrium. The book offers a new method of a irreversible processes superposition effects from conditions of partial equilibrium that allows to simplify their laws, to reduce number of unknown coefficients and to establish additional connections between them. Along with it the book contains the application of this theory to processes of useful transformation of energy and offers the productivity theory of energy transformation processes, founded on the theory of its similarity.
Category: Thermodynamics and Energy