A novel resource utilization method using wet magnesia flue gas desulfurization residue for simultaneous removal of ammonium nitrogen and heavy metal pollutants from vanadium containing industrial wastewater
Author:
Affiliation:
1. Department of Resource and Environment
2. Northeastern University
3. Shenyang
4. PR China
5. Liaoning Key Laboratory of Recycling Science for Metallurgical Resources
Abstract
A novel resource utilization method using wet magnesia flue gas desulfurization residue for the simultaneous removal of ammonium nitrogen and heavy metal pollutants from vanadium industrial wastewater was proven to be viable and effective.
Funder
National Natural Science Foundation of China
Publisher
Royal Society of Chemistry (RSC)
Subject
General Chemical Engineering,General Chemistry
Link
http://pubs.rsc.org/en/content/articlepdf/2018/RA/C8RA07876A
Reference36 articles.
1. More efforts, more benefits: Air pollutant control of coal-fired power plants in China
2. Experimental investigation of MgSO3 oxidation process by catalysis in the magnesium desulfurization
3. Sulfur dioxide emission reduction of power plants in China: current policies and implications
4. A simple realistic modeling of full-scale wet limestone FGD units
5. A novel resource utilization of the calcium-based semi-dry flue gas desulfurization ash: As a reductant to remove chromium and vanadium from vanadium industrial wastewater
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1. Application of RSM to optimize the recovery of ammonia nitrogen from high chromium effluent produced in vanadium industry using struvite precipitation;Journal of Environmental Chemical Engineering;2021-12
2. A near-zero-waste approach using simple physical-chemical methods recovery high concentrations of ammonia nitrogen, heavy metal, and sodium salts from hazardous vanadium-extracted solution;Journal of Cleaner Production;2021-09
3. Mechanochemical approach to synthesize citric acid-soluble fertilizer of dittmarite (NH4MgPO4·H2O) from talc/NH4H2PO4 mixture;RSC Advances;2020
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