International Scientific Journal

Authors of this Paper

External Links


In order to reduce the frequency of marine environmental pollution accidents, marine oil-water separation numerical simulation method is developed. The oil-water separation hydrocyclone is used for emergency treatment to deal with the marine surface oil pollution, and the oil-water separation optimal control parameter calculation method based on the mathematical model of the flow field is used to simulate the oil-water separation performance of the device. The simulation results show that when the split ratio is 4.1%, the inlet pressure is 0.15MPa, the overflow pipe diameter is 3 mm, the oil droplet size is 101, and the large vertebral angle is 27, the hydrocyclone has good separation performance. Under these conditions, this method can be used as a reference method for dealing with oil spills in the ocean and has certain application value.
PAPER REVISED: 2021-07-07
PAPER ACCEPTED: 2021-07-10
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2021, VOLUME 25, ISSUE Issue 6, PAGES [4035 - 4042]
  1. Yin, K., et al., Femtosecond Laser Induced Robust Periodic Nanoripple Structured Mesh for Highly Efficient Oil-water Separation, Nanoscale, 9 (2017), 37, pp.14229-14235
  2. Jonson, M., et al., Investigation of the Effect of Water Stress on the Number of First-flush Flowers in Meiwa Kumquat Trees, Ccamlr Science, 25 (2018), 4, pp. 395-401
  3. Milbrath, A., et al., The earliest Record of the half of the South China Sea in the Japanese sea, with the First Description of Females, Ccamlr Science, 26 (2019), 1, pp. 18-22
  4. Li, X., et al., .Application of WS-Ⅱ "Tank in Tank" Technology in Wastewater Treatment, Chemical Design Communications, 45 (2019), 5, pp. 102-103
  5. Guo, Y. B., et al., Superhydrophobic Behaviors of NanoSiO2 Coating on Stainless Steel Mesh and Its Application in Oil/Water Separation, Applied Nanoscience, 10 (2020), 5, pp. 1511-1520
  6. Sun, G. N., et al., Experiment and application research of new type fiber coalescence sewage degreasing technology, Water Treatment Technology, 45 (2019), 09, pp. 110-114
  7. Jacobson, S., et al., Digestive Tract Development of Native Chickens under Village Management, Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) Science, 26 (2019), 1, pp. 71-77
  8. Lin, X., et al., In-situ Ultrafast Separation and Purification of Oil/Water Emulsions by Superwetting TiO2 Nanocluster-based mesh, Nanoscale, 8 (2016), 16, pp. 8525-8529
  9. Long, M., et al., Microbial Community Structure Shifts are Associated with Temperature, Dispersants and Nutrients in Crude oil-contaminated Seawaters, Marine Pollution Bulletin, 111 (2016), 1, pp. 203-212
  10. Morozov, E. V., et al., Probing Flocculant-induced Asphaltene Precipitation Via Nmr Imaging: From Model Toluene-asphaltene Systems to Natural Crude Oils, Applied Magnetic Resonance, 47 (2016), 2, pp. 223-235
  11. Delong, X., et al., Reducing the Pour Point of Crude Oil by Using of Ultrasonic Wave, Journal of the Acoustical Society of America, 139 (2016), 4, pp. 2186-2186
  12. Minerva, L., et al., Simulation-Optimization-based Design of Crude Oil Distillation Systems with Preflash Units, Industrial & Engineering Chemistry Research, 57 (2018), 30, pp. 9821-9830
  13. Pablo, U., et al., An Optimization Model to Incorporate CO2 Emissions in the Scheduling of Crude Oil Operations, Industrial & Engineering Chemistry Research, 57 (2018), 33, pp. 11342-11349
  14. Shchapova, E. P., et al., Crude Oil at Concentrations Considered Safe Promotes Rapid Stress-Response in Lake Baikal Endemic Amphipods, Hydrobiologia, 805 (2017), July, pp. 189-201

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence