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New Progress in Dairy Wastewater Treatment Technology

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DOI: 10.23977/erej.2022.060403 | Downloads: 13 | Views: 760

Author(s)

Yuntian Xiang 1

Affiliation(s)

1 School of Civil Engineering, Hefei University of Technology, No. 193, Tunxi Road, Hefei City, Anhui Province, China

Corresponding Author

Yuntian Xiang

ABSTRACT

Due to the development of modern life, people's demand for dairy products continues to increase. With the continuous increase of dairy production, dairy wastewater is also increasing. Therefore, the treatment of dairy wastewater is an important part of wastewater treatment. The commonly used processes of dairy wastewater mainly include physicochemical and biochemical methods, as well as the combination of physicochemical and biochemical methods. Membrane technology and coagulation sedimentation hydrolytic acidification CASS process are two relatively new processes, which have many advantages, so they are widely used.

KEYWORDS

Dairy, Waste water, Wastewater treatment, workmanship progress, Membrane technology, CASS Process

CITE THIS PAPER

Yuntian Xiang, New Progress in Dairy Wastewater Treatment Technology. Environment, Resource and Ecology Journal (2022) Vol. 6: 17-22. DOI: http://dx.doi.org/10.23977/erej.2022.060403.

REFERENCES

[1] Krishna B Rahul, Bhuvaneshwari S., Majeed Femin; S P Aravind. (2022) Development and applicability of Aluminium - Copper alloy electrodes for dairy wastewater treatment. Journal of Water Process Engineering, 48, 102915. 
[2] Ben Ali Mahassen, Mahmoudi Khaled, Hamdi Noureddine, Srasra Ezzedine, Rodríguez Miguel A. (2022) reparation and characterization of new tubular kaolino‐illitic ceramic membrane used for dairy wastewater treatment. International Journal of Applied Ceramic Technology. 4, 114-2123. 
[3] Mohebrad Batoul, Ghods Ghazaleh, Rezaee Abbas. (2022) Dairy wastewater treatment using immobilized bacteria on calcium alginate in a microbial electrochemical system. Journal of Water Process Engineering, 46, 102609. 
[4] BoavidaDias Rui, Silva João R., Santos Andreia D., Martins Rui C., Castro Luis M. (2022) A Comparison of Biosolids Production and System Efficiency between Activated Sludge, Moving Bed Biofilm Reactor, and Sequencing Batch Moving Bed Biofilm Reactor in the Dairy Wastewater Treatment. Sustainability, 5, 2702-2710. 
[5] Marassi Rodrigo José, López Mariella B. Galeano, Queiroz Lucas Gonçalves, Silva Daniel Clemente V.R., da Silva Flávio Teixeira. (2021) Efficient dairy wastewater treatment and power production using graphite cylinders electrodes as a biofilter in microbial fuel cell. Biochemical Engineering Journal, 178, 08283. 
[6] Tao Jiang, Shuai Wang, Dechen Shan, Yun Zhang. (2021) Discussion on the Application of Membrane Technology in Dairy Wastewater Treatment. Modern chemical research, 1, 105-106. 
[7] Zhibin Lei, Jiayu Li, Youjiang Tan. (2018) Treatment of Simulated Dairy Wastewater by Microbial Flocculant for Protein Recovery. Journal of Shunde Polytechnic, 4, 1-4. 
[8] Pengfang Li, Meng Liu, Keting Zhang, Minglei Yan, Chunji Jin. (2018) Performance of Anaerobic Membrane Bioreactor on Dairy Wastewater Treatment. Sichuan environment, 5, 12-18.
[9] Raja Sikkandhar Wasim, Thanuja Kalyanasundaram Geetha, Karthikeyan Subburamu, Marimuthu Subramanian Bioresource. (2021) Exploring the concurrent use of microalgae Coelastrella sp. for electricity generation and dairy wastewater treatment. Technology Reports, 17, 100889. 
[10] Likun Huang, Hairui Shen, Guangzhi Wang, Yuanyuan Xu; Zhe Li. (2020) Study on the characteristics of enhanced up - flow anaerobic reactor start-up and treatment of milk wastewater. Journal of natural science of Heilongjiang University, 1, 81-86. 

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