Study of the possibility of thermal utilization of contaminated water in low-power boilers
- Authors: Roslyakov P.V.1, Proskurin Y.V.2, Zaichenko M.N.1
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Affiliations:
- Moscow Power Engineering Institute
- Transneft
- Issue: Vol 64, No 9 (2017)
- Pages: 644-651
- Section: Environmental Protection
- URL: https://journals.rcsi.science/0040-6015/article/view/172802
- DOI: https://doi.org/10.1134/S0040601517090075
- ID: 172802
Cite item
Abstract
The utilization of water contaminated with oil products is a topical problem for thermal power plants and boiler houses. It is reasonable to use special water treatment equipment only for large power engineering and industry facilities. Thermal utilization of contaminated water in boiler furnaces is proposed as an alternative version of its utilization. Since there are hot-water fire-tube boilers at many enterprises, it is necessary to study the possibility of thermal utilization of water contaminated with oil products in their furnaces. The object of this study is a KV-GM-2.0 boiler with a heating power of 2 MW. The pressurized burner developed at the Moscow Power Engineering Institute, National Research University, was used as a burner device for supplying liquid fuel. The computational investigations were performed on the basis of the computer simulation of processes of liquid fuel atomization, mixing, ignition, and burnout; in addition, the formation of nitrogen oxides was simulated on the basis of ANSYS Fluent computational dynamics software packages, taking into account radiative and convective heat transfer. Analysis of the results of numerical experiments on the combined supply of crude oil and water contaminated with oil products has shown that the thermal utilization of contaminated water in fire-tube boilers cannot be recommended. The main causes here are the impingement of oil droplets on the walls of the flame tube, as well as the delay in combustion and increased emissions of nitrogen oxides. The thermal utilization of contaminated water combined with diesel fuel can be arranged provided that the water consumption is not more than 3%; however, this increases the emission of nitrogen oxides. The further increase in contaminated water consumption will lead to the reduction of the reliability of the combustion process.
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About the authors
P. V. Roslyakov
Moscow Power Engineering Institute
Author for correspondence.
Email: RoslyakovPV@mpei.ru
Russian Federation, Moscow, 111250
Y. V. Proskurin
Transneft
Email: RoslyakovPV@mpei.ru
Russian Federation, Moscow, 119180
M. N. Zaichenko
Moscow Power Engineering Institute
Email: RoslyakovPV@mpei.ru
Russian Federation, Moscow, 111250
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