Analysis of the efficiency of steam-organic technology with internal regeneration in the organic renkin cycle-Reference-Cited by-同舟云学术

Analysis of the efficiency of steam-organic technology with internal regeneration in the organic renkin cycle

Published:2020-11-25 Issue:1 Volume:5 Page:242-248
ISSN:2782-3989
Container-title:Energy Systems
language:en
Short-container-title:

Author:

Vorogushina Nadezhda¹

Affiliation:

1. Novosibirsk State Technical University

Abstract

The article discusses the combination of steam-water and organic Rankine cycles, the positive effects of this technology, affecting the ecology and equipment service life. The expediency and efficiency of using the regenerator for different types of saturation curves for a group of organic liquids are considered.

Publisher

BSTU named after V.G. Shukhov

Reference5 articles.

1. Tartière T. Analysis of the Organic Rankine Cycle market [Электронный ресурс] // RC World Map [2017]. URL: https://orc-world-map.org/analysis/ (дата обращения: 02.10.2020)., Tartière, T. (2017). Analysis of the Organic Rankine Cycle market. RC World Map. Retrieved from https://orc-world-map.org/analysis/.

2. Белов Г.В., Дорохова М.А. Органический цикл Ренкина и его применение в альтернативной энергетике // Наука и образование: Научное издание МГТУ им. Н.Э. Баумана. 2014. № 2. С. 99-124., Belov, G.V., & Dorohova M.A. (2014). Organicheskij cikl Renkina i ego primenenie v al'ternativnoj energetike [Organic Rankine cycle and its application in alternative energy]. Nauka i obrazovanie: Nauchnoe izdanie MGTU im. N.E. Baumana, 2, 99-124 [In Russian]. Available: https://doi.org/10.7463/0214.0699165

3. Повышение энергетической эффективности магистрального транспорта газа ПАО «ГАЗПРОМ» на основе реализации высокоэффективных технологий утилизации тепловой энергии выхлопных газов ГТУ ГПА [Электронный ресурс] / О.Е. Аксютин, А.Г. Ишков, Г.А. Хворов и др. // Газовая промышленность. 2017. Спецвып. 1. С. 64-69. URL: https://neftegas.info/upload/iblock/7e5/ 7e57e2cb056c37e15259e316957c4916.pdf (дата обращения 20.10.2020)., Aksyutin, O.E., Ishkov, A.G., Hvorov G.A., YUmashev, M.V., YUrov, E.V., Mohov, V.P., & Mohov, O.V. (2017). Povyshenie energeticheskoj effektivnosti magistral'nogo transporta gaza PAO «GAZPROM» na osnove realizacii vysokoeffektivnyh tekhnologij utilizacii teplovoj energii vyhlopnyh gazov GTU GPA [Increasing the energy efficiency of the main gas transportation of PJSC "GAZPROM" on the basis of the implementation of highly efficient technologies for the utilization of thermal energy of exhaust gases from gas turbine units]. Gazovaya promyshlennost', Special issue 1, 64-69 [In Russian].Retrieved from https://neftegas.info/upload/iblock/7e5/7e57e2cb056c37e15259e316957c4916.pdf.

4. Chen H., Goswami D., Stefanakos E. A review of thermodynamic cycles and working fluids for the conversion of low-grade heat // Renewable and Sustainable Energy Reviews. 2010. Vol. 14(9). P. 3059-3067., Chen, H., Goswami, D., & Stefanakos, E. (2010). A review of thermodynamic cycles and working fluids for the conversion of low-grade heat. Renewable and Sustainable Energy Reviews, 14(9), 3059-3067. Available: https://doi.org/10.1016/j.rser.2010.07.006

5. Working fluids for low-temperature Organic Rankine Cycles / B. Saleh, G. Koglbauer, M. Wendland, J. Fischer // Energy. 2007. Vol. 32(7). P. 1210-1221., Saleh, B., Koglbauer, G., Wendland, M., & Fischer J. (2007). Working fluids for low-temperature Organic Rankine Cycles. Energy, 32(7), 1210-1221. Available: http://doi.org/10.1016/j.energy.2006.07.001.