Industrial wastewater treatmentby constructed wetlands
Tertiary treatment of wastewater from the chemical industry
(4.000 m³/d ) by constructed wetlands at Changshu Industrial Park, China
Treatment of wastewater from an industrial park by constructed wetlands at Changshu, China
4.000m³/d are treated in a cascade of reed bed treatment systems with vertical and horizontal subsurface flow, ponds with floating islands and surface flow wetlands (6 ha total area). In operation since 2014.
Download 1: Wetland Treatment Center of Advanced Materials Changshu Industrial Park
Treatment of process water from the fish industry in Ecuador
Download 1: Constructed wetland for wastewater treatment of fish factory Copropag on Isla Santa Cruz, Galapagos Islands
Treatment of tapocia processing industrial wastewater in Southern Vietnam
In tropical zones, surface water is often the only source for drinking and industrial water supply. However, due to numerous discharges of untreated wastewater, water bodies are often highly contaminated. The main objective of this project is to develop procedures and techniques to sustainably improve the water quality of polluted surface waters in tropical and subtropical zones under given socio-economic and ecological constraints. This includes experimental studies of tapioca wastewater treatment and the application of numerical simulation techniques to the water cycle and water quality.
A treatment concept has been developed that consists of a mechanical and chemical pretreatment, followed by anaerobic degradation, and post-treatment in vertical subsurface flow constructed wetlands. Using a pilot plant, this innovative process combination will be adapted and optimised. The results of this wastewater treatment will be integrated into a numerical water pollution control management system (WPC- MS) of the area around the pilot plant (Dongnai river basin).
List of participants
Technical University Braunschweig, Department of Hydrology,
Water Management and Water Protection,
Leichtweiss-Institute for Hydraulic and Water Resources Engineering (LWI),
Prof. Dr. G. Meon (coordination), Germany
Ostwestfalen-Lippe University of Applied Sciences Department of Environmental Engineering, Campus Höxter, Germany
Institute for Environment and Resources (IER),
National University of Ho Chi Minh City, Vietnam
Hager & Elsässer GmbH, Stuttgart, Germany
Enviplan Ingenieurgesellschaft mbH, Lichtenau, Germany
Blumberg Engineers, Bovenden, Germany
Project start and duration,
Total costs and funding
|Project period:||March 2009 – August 2012|
|Costs:||1.6 Mio €|
|Funding:||Federal Ministry o Education and Research
Ministry of Science and Technology (Vietnam)
J. Fettig, V. Pick, U. Austermann-Haun, M. Blumberg and N.V. Phuoc (2013) : Treatment of tapioca starch wastewater by a novel combination of physical and biological processes, in Water Science & Technology, 68.6 , 2013.
Download 1: Blumberg, M. (2013): Constructed Wetlands for Treatment of Biogas Plant Effluents. In: Biogas Engineering and Application, Volume 3, Renjie, D. Raninger, B. (Eds.), China Agricultural University Press
Download 2: Treatment of tapioca processing wastewater in South Vietnam. Poster presentation on international Symposium "Re-Water Braunschweig", Nov. 2011, by Michael Blumberg
First large size applications of constructed wetlands for industrial wastewater in England
Early (1990/91) industry full scale treatment plants of the chemical industry (ICI Oil Works, Billingham, England, 7 ha size) and coke oven effluents (British Steel, Llanwern, England, 18 ha size) by root zone system of the scientific group of Prof. Kickuth, Germany.
Pilot trials with the industrial wastewater in a small scale treatment system (prior to establishing the huge full scale plants) and cultivation and selection of wastewater adapted reed plants (Phragmites communis) in special glasshouses.
Pictures from construction and planting (1990/1991)
ICI Oil Works, Billingham
British Steel, Llanwern