Energy Efficiency of Refrigerating Ejector Systems for the Condensation of Oil Product Liquid Hydrocarbons

: pp. 37 – 42
Received: September 30, 2017
Revised: October 31, 2017
Accepted: November 10, 2017
Odessa National Academy of Food Technologies
Odessa National Academy of Food Technologies
Odessa National Academy of Food Technologies
Odessa National Academy of Food Technologies

The oil processing enterprises are the largest consumers of fuel and energy resources, heat and electrical energy. Efficiency, rationality of their use in oil refining processes in many respects is defined by overall performance of processing equipment. Feature of processes for processing a hydrocarbon raw material is that technology processes are imperfect. One of the priority directions of increase in efficiency of energy saving of oil processing productions is the maximum use of recuperation of warmth and optimization of operating modes of technology installations. The article focuses on the use of refrigerating ejector systems at the solution of the most important problems of the oil processing industry. The offered systems allow resolving effectively issues of energy saving and rational consumption of fuel and energy resources of the oil industry enterprises. The scheme solutions in the industry are the priority direction of energy saving policy.

  1. Modeling of technology of trade preparation of oil / N. V. Usheva, A. V. Kravtsov, O. E. Moises, E. A. Kuzmenko//TPU News - 2005. - T. 308, No. 4 - page 127-130. (in Russian)
  2. V. Khmeliyuk, M. Kogut. Questions of safety during the transporting and storage oil products / Proc. of 7th Intern. sci.-techn. conf. "Modern problems of cooling equipment and technology ", Odessa, 2011, page 102. (in Ukrainian)
  3. RND 39.-142-00. A method of calculation of emissions of harmful substances in a circumambient from unorganized sources of the oil and gas equipment.
  4. RND Methodical directions for definition of emissions of pollutants in the atmosphere from reservoirs.
  5. Nysangaliyev A. N., Akhmedzhanov T. K., et al. Assessment of pollution of the atmosphere by gaseous substances from a one point and area sources. - Almaty: Hydrometeorology and ecology, 2001. - No. 3-4. - 177-181 pages. (in Russian)
  6. Patent of Ukraine "Method of hydrocarbon vapor condensation" No. 92548, 26.08.2014 (in Ukrainian)
  7. Patent of Ukraine "Unit for condensation of hydrocarbon vapors in the stream" No. 92555, 26.08.2014 (in Ukrainian)
  8. V. Kogut, I. Butovskyi. Application of ejector heat exchangers in various industries \\ East-European Journal of Advanced Technologies / Kharkiv - 2014 - Issue. 5, V. 1 (71) - p. 51-58
  9. Kogut, V. Application of heat exchange ejector for condensation of vapors of hydrocarbons [Text] / V. Kogut, I. Butovskyi, M. Khmelniuk // IV Intern. Sci. and Techn. Conf. “Kazakhstan-Refrigeration 2014”. Almaty, Kazakhstan, 2014. – P. 5–8.
I. Butovskyi, V. Kogut, V. Bushmanov, M. Khmelniuk. Energy efficiency of refrigerating ejector systems for the condensation of oil product liquid hydrocarbons. Energy Eng. Control Syst., 2017, Vol. 3, No. 2, pp. 37 – 42.