电邮这篇文章 Economic assessment of the application of electrodialysis method with solution cooling in wastewater treatment of galvanic products
- 作者: Lazarev S.I.1, Dolgova O.V.1, Shestakov K.V.1
-
隶属关系:
- Tambov State Technical University
- 期: 编号 1 (2024)
- 页面: 100-112
- 栏目: REGIONAL AND SECTORAL ECONOMY
- URL: https://journals.rcsi.science/1990-9047/article/view/278119
- DOI: https://doi.org/10.17277/voprosy.2024.01.pp.100-112
- ID: 278119
如何引用文章
全文:
详细
It is proposed to change the design of the electrodialyzer by integrating a cooling system, tubes passing through a block of ion-exchange membranes, through which cooling water is supplied through the internal volume of the device. The device and operating principle of the electrodialyzer are presented and compared with the prototype. The possibility of using an electrodialyzer with solution cooling in the process of purifying galvanic wastewater is considered. A process scheme for the purification of industrial solutions using an electrodialyzer with an increased membrane area and cooling has been proposed. The costs of operating the described scheme were assessed. The economic effect of implementation and the payback period of the technological process are calculated.
作者简介
S. Lazarev
Tambov State Technical University
Email: o.v.dolgova@mail.ru
доктор технических наук, профессор, заведующий кафедрой «Механика и инженерная графика»
俄罗斯联邦, TambovO. Dolgova
Tambov State Technical University
编辑信件的主要联系方式.
Email: o.v.dolgova@mail.ru
кандидат технический наук, старший преподаватель кафедры «Природопользование и защита окружающей среды
俄罗斯联邦, TambovK. Shestakov
Tambov State Technical University
Email: o.v.dolgova@mail.ru
кандидат технических наук, доцент кафедры «Механика и инженерная графика»
俄罗斯联邦, Tambov参考
- Yermolenko B.V., Kuzin Ye.N. [Optimization of the process of selecting technologies and equipment for wastewater treatment of galvanic production], Izvestiya vysshikh uchebnykh zavedeniy. Seriya: Khimiya i khimicheskaya tekhnologiya [News of higher educational institutions. Series: Chemistry and chemical technology], 2024, vol. 67, no. 2, pp. 111-118. doi: 10.6060/ivkkt.20246702.6913 (In Russ., abstract in Eng.)
- Dzhubari M.K., Alekseeva N.V. [Efficiency of electrodialysis in industrial wastewater treatment], Vestnik tekhnologicheskogo universiteta [Bulletin of the Technological University], 2020, vol. 23, no. 7, pp. 33-39. (In Russ., abstract in Eng.)
- Fomichev V.T., Gubarevich G.P., Savchenko A.V. [Purification of chromium-containing waters by electrodialysis in a non-stationary mode], Vestnik Volgogradskogo gosudarstvennogo arkhitekturno-stroitel'nogo universiteta. Seriya: Stroitel'stvo i arkhitektura [Bulletin of the Volgograd State University of Architecture and Civil Engineering. Series: Construction and architecture], 2020, no. 1(78), pp. 190-195. (In Russ., abstract in Eng.)
- Öner M.R., A. Kanca, O.N. Ata [et al.], Bipolar membrane electrodialysis for mixed salt water treatment: Evaluation of parameters on process performance, Journal of Environmental Chemical Engineering, 2021, vol. 9, no. 4, pp. 105750. doi: 10.1016/j.jece.2021.105750
- Niftaliev S.I., Kozaderova O.A., Kim K.B. [Application of bipolar electrodialysis with modified membranes in the treatment of chromium-containing wastewater from galvanic production], Ekologiya i promyshlennost' Rossii [Ecology and industry of Russia], 2021, vol. 25, no. 10, pp. 4-9. doi: 10.18412/1816-0395-2021-10-4-9 (In Russ., abstract in Eng.)
- Lipin A.G., Lipin A.A., Arkhipov N.A. [Wastewater treatment from monoammonium phosphate in an electric membrane], Rossiyskiy khimicheskiy zhurnal [Russian chemical journal], 2019, vol. 63, no. 3-4, pp. 45-49. doi: 10.6060/rcj.2019633.6 (In Russ., abstract in Eng.).
- Dudeja I., Nikhanj A.P. Singh Electrodialysis: A Novel Technology in the Food Industry. In book: Emerging Techniques for Food Processing and Preservation, CRC Press, 2024, 25 p.
- Peng Z., Sun Y. Leakage circuit characteristics of a bipolar membrane electrodialyzer with 5 BP-A-C units, Journal of Membrane Science, 2020, vol. 597, pp. 117762. doi: 10.1016/j.memsci.2019.117762
- Peng Z., Sun Y., Shi P., Wang Y. A mathematical model of the external circuits in a bipolar membrane electrodialysis stack: Leakage currents and Joule heating effect, Separation and Purification Technology, 2022, vol. 290,no. 2, pp. 120816. doi: 10.1016/j.seppur.2022.120816
- Akberova E.M., Yatsev A.M., Kozhukhova E.Yu., Vasilyeva V.I. [Microscopic analysis of the surface of heterogeneous membranes with different degrees of ion exchanger dispersion after temperature exposure], Kondensirovannyye sredy i mezhfaznyye granitsy [Condensed matter and interphase boundaries], 2017, vol. 19, no. 2, pp. 158-165. (In Russ., abstract in Eng.).
- Hu Y. Grand challenge in membrane applications: Liquid, Frontiers in Membrane Science and Technology, 2023, no. 2, pp. 1177528. doi: 10.3389/frmst.2023.1177528
- Xie R., Feng L., Lei Z. [et al.] A Novel Thermoresponsive Catalytic Membrane with Multiscale Pores Prepared via Vapor-Induced Phase Separation, Smart Porous Membranes, 2018, no. 14, pp. 1703650. doi: 10.1002/smll.201703650
- Luo X., Liu X., Wang Y. [et al.] Thermoresponsive membrane based on UCST-type organoboron polymer for smart gating and self-cleaning, Journal of Membrane Science, 2024, no. 693, pp. 122343.
- Carraretto I. M., Ruzzi V., Lodigiani F. [et al.] Characterization of the physical properties of the thermoresponsive block-copolymer PAGB2000 and numerical assessment of its potentialities in Forward Osmosis desalination, Polymer Testing, 2023, vol. 128, no. 9, pp. 108238. doi: 10.1016/j.polymertesting.2023.108238
- Zhang X., Xiong S., Liu C. [et al.] Smart TFC membrane for simulated textile wastewater concentration at elevated temperature enabled by thermal-responsive microgels, Desalination, 2021, no. 500, pp. 114870. doi: 10.1016/j.desal.2020.114870
- Filimonova A.A., Chichirova N.D., Chichirov A.A., Minibaev A.I. [Prospects for the use of electromembrane technologies in the energy sector], Trudy akademenergo [Proceedings of Academenergo], 2020, no. 2(59), pp. 55-76. (In Russ.).
- Lazarev S.I., Konovalov D.N., Galkina P.A., Malinin P.M. Elektrobaromembrannyy apparat kombinirovannogo tipa [Combined type electric baromembrane apparatus], Russian Federation, 2023, Pat. 2788625 (In Russ.).
- Lazarev S.I., Kovalev S.V., Shestakov K.V., Khokhlov P.A. Elektrodializator s okhlazhdeniyem razdelyayemogo rastvora [Electrodialyzer with cooling of the separated solution], Russian Federation, 2019, Pat. 2690339 (In Russ.).
- Pikuza V.I. Ekonomicheskiye raschety i biznes-modelirovaniye v Exel [Economic calculations and business modeling in Excel], St. Petersburg, Peter, 2012, 400 p. (In Russ.).
- Azimov A.M., Kamshybaev A., Isabaev N.N. [Assessing the economic efficiency of the membrane method for preparing drinking water], Central Asian Economic Review, 2023, no. 2(149), pp. 117-128. (In Russ., abstract in Eng.).
补充文件
