An evaluation of reed bed technology to dewater Army wastewater treatment plant sludge

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US Army Corps of Engineers, Construction Engineering Research Laboratories, National Technical Information Service, distributor , [Champaign, IL], [Springfield, VA
Sewage sludge -- Drying., Sewage -- Purifica
Statementby Byung J. Kim, Raul R. Cardenas, Satya P. Chennupati.
SeriesUSACERL technical report -- EP-93/09., USACERL technical report -- EP-93/09.
ContributionsCardenas, Raul Rudolph, 1929-, Chennupati, Satya P., Construction Engineering Research Laboratories (U.S.)
The Physical Object
FormatMicroform
Pagination1 v.
ID Numbers
Open LibraryOL16386863M

An Evaluation of Reed Bed Technology To Dewater Army Wastewater Treatment Plant Sludge by Byung J. Kim Raul R. Cardenas Satya P. Chennupati As operator of over small wastewater treatment plants (WWTPs), the Army has an interest in efficient and cost-effective sludge dewatering systems.

Many Army wastewater treatmentCited by: 4. @article{osti_, title = {Evaluation of reed bed technology to dewater Army wastewater treatment plant sludge.

Final report}, author = {Kim, B J and Cardenas, R R and Chennupati, S P}, abstractNote = {As operator of over small wastewater treatment plants (WWTPs), the Army has an interest in efficient and cost-effective sludge dewatering systems.

The U.S. Army Construction Engineering Research Laboratories (USACERL) has been developing and adopting improved sludge dewatering systems for U.S.

Army wastewater treatment plants. USACERL selected reed beds as the best alternative for future Army sludge dewatering systems based on the system's economical and technical feasibility and on a Cited by:   An Evaluation of Reed Bed Technology to Dewater Army Wastewater Treatment Plant Sludge, U.S.

Army Corps of Engineers, USACERL Technical Report EP/09, September “Reed Beds: An Alternative Way to Handle Wastewater Solids,” David King, RAE Water & Sewer, PowerPoint Presentation, August and Vacuum-Assisted Bed Dewatering Systems by Byung J.

Kim Raul R. Cardenas, Jr. Chai S. Gee John T. Bandy Many Army wastewater treatment plants (WWTPs) use *D T IC conventional sand-drying beds to dewater sludge. E LECTE However, sand-drying is slow, and requires a large land MAR 05 U area commitment and manual sludge removal.

Outdoor. Nielsen S, Bruun EW. Sludge quality after 10–20 years of treatment in reed bed systems. Environ Scie Poll Res.

; 22(17): Filipović J, Grčić I, Bermanec V, Kniewald G. Monitoring of total metal concentration in sludge samples: Case study for the mechanical–biological wastewater treatment plant in Velika Gorica, Croatia. Because the Army has large-area drying beds that can be converted to reed beds economically, reed bed systems were found to have a good potential for use at Army WWTPS.

Wastewater treatment plant. Peiformance Evaluation ofExisting Wedgewaterand Vacuum-Assisted Bed Dewatering Systems, USACERL Technical Report NlADA Kim, B., Cardenas, R.R., and Chenupati, S.P.

An Evaluation ofReed Bed Technology To Dewater Army Wastewater Treatment Plant Sludge, USACERL Technical Report EP/09/ADA Evaluation of reed bed technology to dewater Army wastewater treatment plant sludge.

This study builds on a previous USACERL evaluation of wedgewater and vacuum-assisted bed. Kim, R. Cardenas, and S. Chennupati, An Evaluation of Reed Bed Technology to Dewater Army Wastewater Treatment Plant Sludge, U.S. Army Construction Engineering Research Laboratory (US ACERL) (). Google Scholar.

Small Scale Wastewater Treatment Plants Phase 1 Small Scale Wastewater Treatment Plant Project REPORT ON PROJECT CRITERIA, GUIDELINES AND TECHNOLOGIES July SOPAC Technical Report The Small Scale Wastewater Treatment Project is funded by NZAID through a cash grant to the South Pacific Applied Geoscience Commission.

Constructed Wetlands in Water Pollution Control documents the proceedings of the International Conference on the Use of Constructed Wetlands in Water Pollution Control, held in Cambridge, UK, September This volume contains 70 papers that are organized into 12 parts. Part 1 includes papers such as the need for hydrophyte-based systems in the treatment of waste water from small.

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Kim BJ, Cardenas RR, Chennupati SP () An evaluation of reed bed technology to dewater army wastewater treatment plant sludge, U.S. Army Construction Engineering Research Laboratory (U.S.

ACERL) Google Scholar. Reed Bed Treatment Systems: Performance Evaluation Seven Years of Research Work and Experience with Wastewater Treatment by a Reed Bed System Purification of Domestic Sewage with and without Faces by Vertical Intermittent Filtration in Reed and Rush Beds Reed Bed Treatment Systems in Anglian Water The Application of Artificial Wetlands in South.

The vertical flow constructed wetland (VFCW) has become an attractive decentralised technology for septage treatment. One of the main purposes of the septage treatment is to reduce the volume of raw septage through dewatering, where the solids content is retained in the wetland bed and the water content is released.

The retention of solids forms a layer of sludge deposit at the wetland surface. Table Impact of Wastewater Characteristics on the Choice of Wastewater Treatment Process sludge treatment requires about m2 per person.

Trickling filters and extended aeration will require rather more, perhaps up to m2 per person. More land. The personnel at a m3/s (mgd) advanced wastewater treatment plant treating wastewaters to 5 mg/l BODg, 5 mg/l TSS, 1 mg/l NH4N, and 1 mg/l total phosphorus may be much more qualified to operate and maintain a mechanical dewatering unit than the personnel at a m3/s (mgd) plant using trickling filters to meet 30/30 criteria.

Sludge drying beds are one of the simplest and oldest techniques for sludge dewatering. Concept Examples Covered sludge drying bed at the Arcata wastewater treatment plant (USA) Unplanted drying bed at a waste stabil- isation pond (WSP) Primary sludge drying bed and reed bed. A Guide to Wastewater Treatment, from Greater Vancouver Regional District.

Occupational Outlook, Wastewater Treatment Plant Operators US Dept. Labour. About Household Sewage KAO Consumer Life Science Research Laboratory. Managing Household Wastewater - self assessment, Mississippi State University.

Details An evaluation of reed bed technology to dewater Army wastewater treatment plant sludge EPUB

Thomas Crapper: A Man, A Plan, A Commode. Byung J. Kim has written: 'An evaluation of reed bed technology to dewater Army wastewater treatment plant sludge' -- subject(s): Drying, Sewage sludge. Sludge dewatering and stabilisation are the main features of this technology, leading to a final product which may be recycled as an organic fertiliser or soil conditioner.

In this study, biosolids from full-scale treatment wetlands were characterised in order to evaluate the quality of the final product for land application, even without. Sludge Dewatering Technology US Army Corps Engineers Sludge Treatment with Reed Bed Technology Roy Consultants Group.

The Sewer as a physical, chemical and biological reactor Willi Gujer, Maryland Sea Grant Modelling/advanced control of an activated sludge wastewater treatment plant.

[email protected] ; Sunday, J ; main page. 40 Domestic Wastewater Treatment in Developing Countries. In the United States as in Europe, the common reed, Phragmites communis, is a popular species for dewatering wastewater sludge.

The sludge contains the dead bodies of the microorganisms used in the primary sewage treatment process, and although it appears densely laden with foreign matter, it is commonly as much as 98 percent water.

Sludge treatment reed beds (STRBs) are an established sludge treatment technology with multiple environmental and economic advantages in dewatering sludge generated during domestic wastewater treatment. However, little is reported regarding their appropriateness and efficiency for the treatment of sludge produced during industrial wastewater Title: Asst [email protected]

Description An evaluation of reed bed technology to dewater Army wastewater treatment plant sludge PDF

Criterion Treatment System Package Plant Activated Sludge Biological Filter Extended Aeration Oxidation Ditch Aeration Lagoon RBC Reed Bed Waste stabilisation pond (incl. anaerobic units) Waste stabilisation pond (excl. anaerobic units) BOD removal FC removal SS removal Helmith removal Virus removal Ancillary use possibilities Effluent re-use.

Free Water Surface Wetlands for Wastewater Treatment: A Technology Assessment (PDF) ( pp, MB, About PDF) This document assesses the application, performance and scientific knowledge of free surface water (FWS) wetlands to treat municipal wastewater and to meet other societal and ecological needs.

Wastewater treatment for industries such as manufacturing, food processing, corrugators, printing and so on. Paper and pulp mills' treatment of wastewater is an example of industrial wastewater treatment. Municipal wastewater treatment would be an example not considered to be industrial.

Influent The untreated wastewater or raw sewage coming. Engineered Wetlands and Reactive Bed Filters for Treatment of. Performance evaluation of horizontal and vertical flow constructed Vertical Flow Constructed Wetlands Eco-engineering Systems Wastewater and Sludge Treatment Constructed Wetlands Wetlands Protection and Restoration.

Municipal Wastewater Treatment Market Study - Free download as PDF File .pdf), Text File .txt) or read online for free. This white paper is a comprehensive market analysis of the biosolids treatment industry that include public wastewater treatment plants.

This report focuses on the strategies of converting the waste to energy and the opportunities that are currently available.2.

Actual experiences with the use of reed bed systems for wastewater treatment in single households. Perfler, R.; Haberl, R. Water-sci-technol v, p ().

Proceedings of the 2nd International Conference on, "Design and Operation of Small Wastewater Treatment Plants," June, Trondheim, Norway / edited by H.

Odegaard.This advanced biological wastewater treatment plant cost only marginally more than a conventional activated sludge plant but nevertheless involved considerable investment.

Furthermore, the complexity of the process and the skilled operation required to achieve consistent results make this approach unsuitable for developing countries.