The study of immersion water heating to ensure the creation of new generation pilot water heating devices

Tyumen State University Herald. Physical and Mathematical Modeling. Oil, Gas, Energy


Release:

2019, Vol. 5. №3

Title: 
The study of immersion water heating to ensure the creation of new generation pilot water heating devices


For citation: Gurov V. I., Kurnosov V. V., Lanshin A. I., Sverdlov E. D., Skibin D. A. 2019. “The study of immersion water heating to ensure the creation of new generation pilot water heating devices”. Tyumen State University Herald. Physical and Mathematical Modeling. Oil, Gas, Energy, vol. 5, no 3, pp. 10-24. DOI: 10.21684/2411-7978-2019-5-3-10-24

About the authors:

Valery I. Gurov, Dr. Sci. (Tech.), Head of Sector, P. I. Baranov Central Institute of Aviation Motor Development (Moscow); vigurov@ciam.ru 

Vladimir V. Kurnosov, Cand. Sci. (Phys.-Math.), General Director, Komas (Aprelevka); eLibrary AuthorID, kbb@komas.su

Alexander I. Lanshin, Dr. Sci. (Tech.), Deputy Director General for Science, P. I. Baranov Central Institute of Aviation Motor Development (Moscow); eLibrary AuthorID, Scopus AuthorID, lanshin@ciam.ru

Evgeny D. Sverdlov, Dr. Sci. (Tech.), Leading Researcher, P. I. Baranov Central Institute of Aviation Motor Development (Moscow); eLibrary AuthorID, sverdlov@rtc.ciam.ru

Dmitry A. Skibin, Engineer, P. I. Baranov Central Institute of Aviation Motor Development (Moscow); sda@ciam.ru

Abstract:

This article explains the concept of immersion water heaters and presents their improvement history with references to the main patented technical solutions. The authors provide the test results of various designs of immersion heaters (with capacity of 50 to 100 kW) when working on propane-butane gas and natural gas. The study estimates the received technical parameters and the level of competitive ability of the immersion heaters, which allow speaking about their application prospects.

Based on the presented materials, the authors speak for creating a new generation boiler (without the heat exchangers) with a higher level of efficiency (up to 98%) and low indices of harmful emissions of nitrogen and carbon oxides.

References:

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