Treatment of oily wastewater from cold-rolling mill through coagulation and integrated membrane processes
Xue-Ni Cheng, Yan-Wen Gong
Environmental Engineering Research. 2018;23(2):159-163.   Published online 2018 Jan 3     DOI:
Citations to this article as recorded by Crossref logo
Assessment of an Electrocoagulation Reactor for the Removal of Oil Content and Turbidity from Real Oily Wastewater Using Response Surface Method
Forat Y. AlJaberi, Basma A. Abdulmajeed, Ali A. Hassan, Muhib L. Ghadban
Recent Innovations in Chemical Engineering (Former.2020; 13(1): 55.     CrossRef
Application of a volume retarded osmosis–low pressure membrane hybrid process for treatment of acid whey
Jungwon Choi, Sung-Ju Im, Am Jang
Chemosphere.2019; 219: 261.     CrossRef
Membrane-based separation for oily wastewater: A practical perspective
Henry J. Tanudjaja, Charifa A. Hejase, Volodymyr V. Tarabara, Anthony G. Fane, Jia Wei Chew
Water Research.2019; 156: 347.     CrossRef
Application of volume retarded osmosis – Low pressure membrane hybrid process for recovery of heavy metals in acid mine drainage
Jungwon Choi, Sung-Ju Im, Am Jang
Chemosphere.2019; 232: 264.     CrossRef
Pilot study of cold-rolling wastewater treatment using single-stage anaerobic fluidized membrane bioreactor
Hai-Hsuan Cheng, Liang-Ming Whang, Tse-Fu Yi, Cheng-Pin Liu, Tsair-Fuh Lin, Mao-Song Yeh
Bioresource Technology.2018; 263: 418.     CrossRef
Current development and future prospect review of freeze desalination
Brenda Kalista, Hyein Shin, Jaeweon Cho, Am Jang
Desalination.2018; 447: 167.     CrossRef