Thermodynamics and Energy

1911 Submissions

[3] viXra:1911.0207 [pdf] submitted on 2019-11-11 15:51:22

Analysis of Natural Lightning Phenomena and Method for Laboratory Study

Authors: Stoyan Sarg Sargoytchev
Comments: 12 Pages. Reported in International conference on Nanotechnology and Materials Science, 2019, Rome, Italy

On Earth, the lightning frequency is approximately 44 times per second, or nearly 1.4 billion flashes per year. The average lightning duration is a few hundred milliseconds made up from a number of shorter strokes. Lightning is a transient process producing very high frequency pulses mostly in MHZ range. The analysis of lightnings using the BSM-SG models indicates that theoretically predicted and experimentally proved “Heterodyne Resonance Mechanism” (HRM) is involved in the transient process of lightning. The physics of HRM effect permits a new understanding on the energy of lightning. This article is focused mainly on lightnings between clouds and ground in which an avalanche process takes place. The enormous energy released during this process could not be only from the potential energy accumulated in clouds. A new technical method for a laboratory study of the lightning is proposed.
Category: Thermodynamics and Energy

[2] viXra:1911.0102 [pdf] submitted on 2019-11-06 05:04:09

Cycle of Sevtsov

Authors: Sergey Sevtsov
Comments: 3 Pages.

A fundamentally new thermodynamic cycle of operation of an internal combustion engine with compression ignition is proposed.In a new two-stroke diesel fuel combustion occurs at a constant volume, as in a gasoline engine. Theoretically, the efficiency of the new engine is increased and there is no need for a particulate filter (due to the complete combustion of diesel fuel).
Category: Thermodynamics and Energy

[1] viXra:1911.0075 [pdf] submitted on 2019-11-05 11:09:05

About the Properties of Energy

Authors: Marc Kießling
Comments: 3 Pages.

Abstract Is it possible to describe all law of nature in one theory? This paper constitutes all principles as a result of one single energy and its quantities and distributions. The properties of energy, which lead to the different principles, are the following: 1.There is nothing beside energy. 2.Energy is local 3.Energy is able to superpose with other quantities of energy 4.Quantities of energy tend to each other towards the largest difference of their amount of energy ∆W, except for ∆W=0. 5.Given that there are 2 directions with the same value of ∆W, the energy tends to both ways with the same quantity of energy.
Category: Thermodynamics and Energy