DOCSLIB.ORG

Wastewater Treatment Technologies List.Cdr

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Wastewater Treatment Technologies List.Cdr GK.TAMILGOD.ORG List Of Wastewater Treatment TECHNOLOGIES TECHNOLOGIES G K . T A M I L G O D . O R G G K . TA M I L G O D . O R G A Ta m i l Q A P o r t a l . Wastewater Treatment Technologies Activated sludge model Activated sludge systems Adsorption/Bio-oxidation process Advanced oxidation process Aerated lagoon Aerobic granular reactor Aerobic granular sludge technology Aerobic granulation Aerobic treatment system Anaerobic clarigester Anaerobic digester types Anaerobic digestion Anaerobic filter Anaerobic lagoon Anammox API oil-water separator Belt filter Bioconversion of biomass to mixed alcohol fuels Biofilters Bioreactor Bioretention Biorotor Capacitive deionization Carbon filtering Cesspit Chemical addition wastewater treatment Clarifier Coarse bubble diffusers Composting toilet Constructed wetland Cross-flow filtration Dark fermentation Decentralized wastewater system Diffuser (sewage) Page 01 G K . TA M I L G O D . O R G A Ta m i l Q A P o r t a l . G K . TA M I L G O D . O R G A Ta m i l Q A P o r t a l . Wastewater Treatment Technologies Dissolved air flotation Dissolved gas flotation Desalination Distillation EcocyclET systems Electrocoagulation Electrodeionization Electrodialysis Electrolysis Enhanced biological phosphorus removal Expanded granular sludge bed digestion Extended aeration Facultative lagoon Fenton's reagent Filtration Fine bubble diffusers Flocculation & sedimentation Flotation process Forward osmosis Froth flotation Hydrocyclone Imhoff tank Induced gas flotation Ion exchange Lamella clarifier (inclined plate clarifier)[1] Living machines Maceration (sewage) Media filter Membrane bioreactor Membrane distillation Membrane fouling Microbial fuel cell Microflotation Moving bed biofilm reactor Page 02 G K . TA M I L G O D . O R G A Ta m i l Q A P o r t a l . G K . TA M I L G O D . O R G A Ta m i l Q A P o r t a l . Wastewater Treatment Technologies Nanotechnology NERV (natural endogenous respiration vessel) Oil–water separator Organisms used in water purification Parallel plate oil–water separator Photobioreactor Reed bed Regenerative thermal oxidizer Retention basin Reverse osmosis Rotating biological contactor Sand filter Screen filter Sedimentation (water treatment) Septic tank Sequencing batch reactor Sewage treatment Skimmer (machine) Slow sand filter Stabilization pond Supercritical water oxidation (SCWO) Super Dissolve Oxygen (Bi-Act SDO) Thermal hydrolysis Treatment pond Trickle-bed reactor Trickling filter Ultrafiltration Ultraviolet disinfection Upflow anaerobic sludge blanket digestion Vermifilter Vacuum evaporation Wet oxidation Page 03 G K . TA M I L G O D . O R G A Ta m i l Q A P o r t a l . Disclaimer The information in this presentation was compiled from sources believed to be reliable for informational purposes only. We do not make any representation regarding, and assume no responsibility or liability for, the accuracy or completeness of, or any errors or omissions in, any information contained herein. You should not take, or refrain from taking action based on its content. Some of the data may have changed as of the published date of this presentation. We shall not be liable for any loss, actions, claims, proceedings, demand, or costs or damages whatsoever or howsoever caused arising directly or indirectly in connection with or arising out of the use of this material. GK.TAMILGOD.ORG science & technology.
Load more

Recommended publications
  • 5. Estimated Capital and Operating Costs
    MAYNILAD WATER SERVICES, INC. MWSS Compound, Katipunan Road, Balara, Quezon City E1288 v 12 Public Disclosure Authorized DRAFT FINAL REPORT CONCEPT DESIGN Public Disclosure Authorized Project 7 Sewage and Septage Treatment Plant Public Disclosure Authorized August 2006 Program Management Group Maynilad Water Services Inc. 2nd Floor Engineering Building Old Balara, Katipunan Road, Quezon City Telephone No.: +632.433.6978 Facsimile No.: +632.435.2128 Public Disclosure Authorized Website: http://www.mayniladwater.com.ph Copyright C 2006 by Program Management Group. All rights reserved. The concepts and information contained herein are the property of MWSI. Use or copying of this document in whole or in part without the written permission of MWSI constitutes an infringement of copyright. Project 7Prototype STP/SpTP 8/17/2006 Page i L Document History and Status l Checked/Reviewed Approved by / Date Revision Date Issued Prepared by by Signature Approved A. S. August Draft Final August 2006 Sampiano M. R. Pedron P.N. Rosete 2006 J.C. S. Iglesia F. A. Arellano Distribution of Copies Revision Copy No. Quantity Issued to Draft Final 1 1 MWSI 2 1 DENR 3-: MWSS Printed : 17 August 2006 Last Save : 17 August 2006 Filename : CD:/Project 7 Concept Design Report Author : A.S.Sampiano Office : Water Sources and Wastewater Facilities Development (WSWFD), PMG Managers : (1) M.R. Pedron, Manager -WSWFD, PMG (2) J.C. S. Iglesia, AVP - Program Planning and Design, PMG Support Group : Environment Managernent Dept., Sewerage and Sanitation Dept. Version : Draft Final Project 7Prototype STP/SpTP 8/17Q2006 Page ii Table of Contents Executive Summary .................................. v Section 1.
    [Show full text]
  • The Biological Treatment Method for Landfill Leachate
    E3S Web of Conferences 202, 06006 (2020) https://doi.org/10.1051/e3sconf/202020206006 ICENIS 2020 The biological treatment method for landfill leachate Siti Ilhami Firiyal Imtinan1*, P. Purwanto1,2, Bambang Yulianto1,3 1Master Program of Environmental Science, School of Postgraduate Studies, Diponegoro University, Semarang - Indonesia 2Department of Chemical Engineering, Faculty of Engineering, Diponegoro University, Semarang - Indonesia 3Department of Marine Sciences, Faculty of Fisheries and Marine Sciences, Diponegoro University, Semarang - Indonesia Abstract. Currently, waste generation in Indonesia is increasing; the amount of waste generated in a year is around 67.8 million tons. Increasing the amount of waste generation can cause other problems, namely water from the decay of waste called leachate. Leachate can contaminate surface water, groundwater, or soil if it is streamed directly into the environment without treatment. Between physical and chemical, biological methods, and leachate transfer, the most effective treatment is the biological method. The purpose of this article is to understand the biological method for leachate treatment in landfills. It can be concluded that each method has different treatment results because it depends on the leachate characteristics and the treatment method. These biological methods used to treat leachate, even with various leachate characteristics, also can be combined to produce effluent from leachate treatment below the established standards. Keywords. Leachate treatment; biological method; landfill leachate. 1. Introduction Waste generation in Indonesia is increasing, as stated by the Minister of Environment and Forestry, which recognizes the challenges of waste problems in Indonesia are still very large. The amount of waste generated in a year is around 67.8 million tons and will continue to grow in line with population growth [1].
    [Show full text]
  • 252:641 Individual and Small Public On-Site Sewage Treatment Systems
    Codification through the 2021 Legislative session Subchapters 1, 3, 12, 15; Appendix H and N Board adoption - February 19, 2021 Approved by Governor's signature on OK HB1046 on June 11, 2021 Effective date – September 15, 2021 TITLE 252. DEPARTMENT OF ENVIRONMENTAL QUALITY CHAPTER 641. INDIVIDUAL AND SMALL PUBLIC ON-SITE SEWAGE TREATMENT SYSTEMS Subchapter 1. General Provisions ..................................................................................................... 252:641-1-1 3. Soil Tests .................................................................................................................... 252:641-3-1 5. Building Sewer and Collection Systems .................................................................... 252:641-5-1 7. Septic Tanks ............................................................................................................... 252:641-7-1 9. Pump Tanks ............................................................................................................... 252:641-9-1 10. Aerobic Treatment Systems ................................................................................... 252:641-10-1 11. Subsurface Systems [REVOKED] ......................................................................... 252:641-11-1 12. Dispersal Fields ...................................................................................................... 252:641-12-1 13. Aerobic Systems [REVOKED].............................................................................. 252:641-13-1 15. Lagoons .................................................................................................................
    [Show full text]
  • Mathematical Modeling of the Performance of a Rotating Biological Contactor for Process Optimisation in Wastewater Treatment
    Mathematical Modeling of the Performance of a Rotating Biological Contactor for Process Optimisation in Wastewater Treatment Zur Erlangung des akademischen Grades eines DOKTOR-INGENIEURS von der Fakultät für Bauingenieur-, Geo- und Umweltwissenschaften der Universität Fridericiana zu Karlsruhe (TH) genehmigte DISSERTATION von Sanjay Dutta, M.Tech. aus Kalkutta, Indien Tag der mündlichen Prüfung: 14. Februar, 2007 Hauptreferent: Prof. Dr. Ing. E.h. Hermann H. Hahn, Ph.D., Karlsruhe Korreferent: Prof. Dr. rer. nat. habil. Josef Winter, Karlsruhe Karlsruhe 2007 Dissertation genehmigt von der Fakultät für Bauingenieur-, Geo- und Umweltwissenschaften Universität Fridericiana zu Karlsruhe (TH) 2007 Hauptreferent: Prof. Dr. Ing. E.h. Hermann H. Hahn, Ph.D., Karlsruhe Korreferent: Prof. Dr. rer. nat. habil. Josef Winter, Karlsruhe Dutta, Sanjay Mathematical Modeling of the Performance of a Rotating Biological Contactor for Process Optimisation in Wastewater Treatment Karlsruhe: Universität Karlsruhe – Verlag Siedlungswasserwirtschaft Karlsruhe, 2007 (Schriftenreihe SWW – Band 126) Zugl.: Karlsruhe, Univ., Diss., 2007 ISBN 978-3-9809383-9-6 ISBN 978-3-9809383-9-6 Alle Rechte vorbehalten Satz: Institut für Wasser und Gewässerentwicklung Bereich Siedlungswasserwirtschaft Universität Karlsruhe (TH) Druck: E&B printware, Digital- und Schnelldruck GmbH, 76131 Karlsruhe Printed in Germany Vorwort 3 Vorwort des Herausgebers Scheibentauchkörper als biologische Reinigungselemente haben sich bislang einer eher auf spezifische Anschlussgrößen (im mittleren
    [Show full text]
  • Preliminary Close-Out Report (PCOR) Documents That the Construction Activities for the Avtex Fibers Superfund Site (Site) Have Been Completed
    SUPERFUND PRELIMINARY CLOSE-OUT REPORT Avtex Fibers Superfund Site Front Royal, Warren County, Virginia EPA ID VAD0070358684 I. INTRODUCTION This Preliminary Close-out Report (PCOR) documents that the construction activities for the Avtex Fibers Superfund Site (Site) have been completed. This determination was conducted in compliance with the Close-out Procedures for National Priorities List Sites (OSWER Directive 9320.2-22, May 2011). The U.S. Environmental Protection Agency (EPA) and the Commonwealth ofVirginia conducted a pre-final inspection on July 1, 2014 and determined that the potentially responsible pru.ty (PRP) constructed the remedy in accordance with approved design plans and specifications. No additional construction activities are anticipated. The PRPs have initiated activities necessary to achieve performance standards and site completion. II. SUMMARY OF SITE CONDITIONS Background The A vtex Fibers Superfund Site is a former rayon manufacturing facility consisting of approximately 440 acres, located in Front Royal, Virginia. The Norfolk Southern railroad runs through the middle of the Site separating the former production facilities on the eastern side of the railroad tracks from the disposal units located on the western side of the railroad tracks. Residential areas are located to the east, south and north of the property boundaries. The South Fork Shenandoah River is located along the western portion of the property. The location of the Site is shown on Figure 1. A photo of the Site taken in May 2014 from an overlook in Skyline Drive in Shenandoah Park is provided in Appendix 1. The Site was proposed for the National Priorities List (NPL) on October 15, 1984 (49 FR 40320) and listed on the NPL on June 10, 1986 (51 -FR 21 054) due to the discovery of groundwater contamination in residential wells, and the first ROD, selecting a "pump and treat" remedy for groundwater, was issued in September 1988.
    [Show full text]
  • Fecal Sludge Management (FSM) Services in Nigeria} Public Disclosure Authorized
    Report No: AUS0000053 . Nigeria Sustainable WSS Services in Nigeria { Fecal Sludge Management (FSM) Services in Nigeria} Public Disclosure Authorized . {December 2017} . WAT . Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized . Document of the World Bank . © 2017 The World Bank 1818 H Street NW, Washington DC 20433 Telephone: 202-473-1000; Internet: www.worldbank.org Some rights reserved This work is a product of the staff of The World Bank. The findings, interpretations, and conclusions expressed in this work do not necessarily reflect the views of the Executive Directors of The World Bank or the governments they represent. The World Bank does not guarantee the accuracy of the data included in this work. The boundaries, colors, denominations, and other information shown on any map in this work do not imply any judgment on the part of The World Bank concerning the legal status of any territory or the endorsement or acceptance of such boundaries. Rights and Permissions The material in this work is subject to copyright. Because The World Bank encourages dissemination of its knowledge, this work may be reproduced, in whole or in part, for noncommercial purposes as long as full attribution to this work is given. Attribution—Please cite the work as follows: “World Bank. {YEAR OF PUBLICATION}. {TITLE}. © World Bank.” All queries on rights and licenses, including subsidiary rights, should be addressed to World Bank Publications, The World Bank Group, 1818 H Street NW, Washington, DC 20433, USA; fax: 202-522-2625; e-mail: [email protected]. Technical Assistance to Fecal Sludge Management Services in Port Harcourt, Nigeria Selection #1222708 ASSESSMENT REPORT AND PROJECT DEVELOPMENT IN SELECTED PILOT AREAS 1 August 2017 ii Project Development in Selected Pilot Areas EXECUTIVE SUMMARY The imperative for improving the collection, treatment, and disposal of human excreta is gaining increasing attention in international development efforts.
    [Show full text]
  • Maricopa County Environmental Health Code
    Maricopa County Environmental Health Code January 27, 2021 MARICOPA COUNTY ENVIRONMENTAL HEALTH CODE CHAPTER I GENERAL PROVISIONS REGULATION 1. Definitions The following definitions shall apply throughout this Environmental Health Code, unless a different meaning is clearly indicated by the context or is stated in another chapter. a. “Approved” or "approval" means acceptable to the Department and so stated in writing. b. “Board” means the Maricopa County Board of Supervisors. c. “Board of Health" means the Board of Health of Maricopa County. d. “Chairman” means the Chairman of the Maricopa County Board of Supervisors. e. “Clerk” means the Clerk of the Maricopa County Board of Supervisors. f. “Counsel” means an attorney licensed to practice law in the State of Arizona. g. “County” means Maricopa County. h. “Department” means the Maricopa County Environmental Services Department. i. “Environmental Health Code” means all of the rules and regulations which are adopted by the Board of Health and the Board of Supervisors pursuant to A.R.S. 36-183.02 through 36-183.07, 36-184, 36-187(C), 11-251 Paragraphs 17 and 31, 11-251.05, 11- 251.08, 49-106, and 49-107, and which remain in force. j. “Environmental Health Officer” means the Director of the Maricopa County Environmental Services Department or his/her authorized Agents. k. “Municipality” means an incorporated area within Maricopa County. l. “Notice" means an enforcement Notice issued by the Environmental Health Officer. m. “Parties” means the Defendant and the County. n. “Permit” means a written permit to operate, issued by the Maricopa County Environmental Services Department.
    [Show full text]
  • Technical Review and Advisory Panel (Trap) Meeting
    T ECHNICAL R EVIEW AND A DVISORY P ANEL ONSITE SEWAGE TREATMENT AND DISPOSAL SYSTEMS ADVISORY TO THE DEPARTMENT OF HEALTH AUTHORITY: SECTION 381.0068, FLORIDA STATUTES TECHNICAL REVIEW AND ADVISORY PANEL (TRAP) MEETING DATE: Thursday, October 16, 2014 TIME: 10:00 a.m. PLACE: Conference call meeting Teleconference Phone Number: 888-670-3525 At the prompt, enter the Participant Code: 2980 214 500 For those who wish to attend the meeting in person, the conference call will originate from: Capital Circle Office Complex Conference Room 110 F 4025 Bald Cypress Way, Tallahassee, Florida 32399 THIS MEETING IS OPEN TO THE PUBLIC. Agenda 1. Introductions 2. Review minutes of last meeting 3. Old Business Rule Issues 12-07 ATU Maintenance Versus Drainfield Maintenance 14-01 Rule Reduction (continued from 9/25/2014) 4. New Business 5. Other items of interest to the Technical Review and Advisory Panel 6. Public Comment Scott Johnson Pam Tucker Martin Guffey Robert Baker PROFESSIONAL ENGINEER REAL ESTATE INDUSTRY SEPTIC TANK INDUSTRY SEPTIC TANK MANUFACTURER Glenn Bryant Russ Melling Scott Franz Sonia Cruz COUNTY HEALTH DEPARTMENT CONSUMER SOIL SCIENTIST ENVIRONMENTAL HEALTH Victor Godlewski Ken Odom, Chair Roy Pence, Vice Chair LOCAL GOVERNMENT HOME BUILDING INDUSTRY HOME BUILDING INDUSTRY T ECHNICAL R EVIEW AND A DVISORY P ANEL ONSITE SEWAGE TREATMENT AND DISPOSAL SYSTEMS ADVISORY TO THE DEPARTMENT OF HEALTH AUTHORITY: SECTION 381.0068, FLORIDA STATUTES TECHNICAL REVIEW AND ADVISORY PANEL (TRAP) MEETING MINUTES DATE: Thursday, September 25, 2014 PLACE:
    [Show full text]
  • Trickling Filter Technology for Treating Abattoir Wastewater
    Trickling Filter Technology for Treating Abattoir Wastewater Project code: 2014 /1016 Prepared by: GHD Pty Ltd Date Published: April 2015 Published by: Australian Meat Processor Corporation Disclaimer: The information contained within this publication has been prepared by a third party commissioned by Australian Meat Processor Corporation Ltd (AMPC). It does not necessarily reflect the opinion or position of AMPC. Care is taken to ensure the accuracy of the information contained in this publication. However, AMPC cannot accept responsibility for the accuracy or completeness of the information or opinions contained in this publication, nor does it endorse or adopt the information contained in this report. No part of this work may be reproduced, copied, published, communicated or adapted in any form or by any means (electronic or otherwise) without the express written permission of Australian Meat Processor Corporation Ltd. All rights are expressly reserved. Requests for further authorisation should be directed to the Chief Executive Officer, AMPC, Suite 1, Level 5, 110 Walker Street Sydney NSW. Table of Contents Executive Summary 4 1. Introduction 6 1.1 Project Background 6 1.2 Objectives 6 1.3 Workscope and Basis 6 1.4 Overview 7 2. Treatment of Abattoir Wastewater 11 2.1 Characterisation of Wastewater 11 2.2 Typical Treatment Train 11 2.3 Treatment 12 3. Trickling Filtration 15 3.1 General 15 3.2 Description 15 3.3 Trickling Filter Media 17 3.4 Construction 18 3.5 Recirculation 19 3.6 Air Access / Circulation 19 3.7 Broad Design 19 3.8 Activated Sludge Versus Trickling Filters 22 4.
    [Show full text]
  • General Sewer Plan
    CITY OF GRANDVIEW GENERAL SEWER PLAN Prepared by PROJECT NO. 08032 January 2009 CITY OF GRANDVIEW GENERAL SEWER PLAN Prepared by PROJECT NO. 08032 January 2009 TABLE OF CONTENTS Page No. INTRODUCTION AND EXECUTIVE SUMMARY ......................................................................................... 1 INTRODUCTION ............................................................................................................................... 2 REQUIREMENTS.............................................................................................................................. 2 PURPOSE AND OBJECTIVE OF PLAN ........................................................................................... 2 SUMMARY OF RECOMMENDED IMPROVEMENTS ...................................................................... 3 SCHEDULE OF IMPROVEMENTS ................................................................................................... 3 ESTIMATED COSTS AND PROPOSED SEWER SYSTEM FINANCIAL PROGRAM ..................... 3 CHAPTER 1 - BASIC PLANNING INFORMATION ...................................................................................... 4 1.1 BACKGROUND INFORMATION .............................................................................................. 5 Wastewater System Ownership .......................................................................................... 5 Geography ........................................................................................................................... 5 Wastewater
    [Show full text]
  • Biosolids Management in New York State
    Biosolids Management in New York State MARCH 2018 DIVISION OF MATERIALS MANAGEMENT | 625 BROADWAY, ALBANY, NY 12233-7253 Preface This report is an update to the Division of Materials Management 2011 edition of “Biosolids Management in New York State.” It provides the most current information available concerning biosolids management practices in New York State. Biosolids was previously called sewage sludge. 6 NYCRR Part 360 regulations define biosolids as: the accumulated semi-solids or solids resulting from treatment of wastewaters from publicly or privately owned or operated sewage treatment plants. Biosolids does not include grit or screenings, or ash generated from the incineration of biosolids. We would like to thank all chief operators and managers of the wastewater treatment facilities in New York State that responded to our survey questionnaires. The report could not be completed as comprehensively without their assistance. Any comments, questions, or requests for specific data regarding this report may be sent to Molly Baker at [email protected]. Table of Contents Findings Summary ......................................................................................................................................... 1 Biosolids Management Survey ...................................................................................................................... 3 Sources of Information ............................................................................................................................. 3 Biosolids
    [Show full text]
  • Guide to Sanitation Resource Recovery Products & Technologies
    Guide to Sanitation Resource Recovery Products & Technologies A supplement to the Compendium of Sanitation Systems and Technologies 1st Edition Guide to Sanitation Resource Recovery Products & Technologies A supplement to the Compendium of Sanitation Systems and Technologies Jennifer McConville, Charles Niwagaba, Annika Nordin, Marcus Ahlström, Vivian Namboozo and Mark Kiffe We would like to thank the following individuals and their organisations/ institutions for their invaluable contributions to this publication: Allan Komakech (Makerere University), Åke Nordberg (SLU), Amadou Gueye (Delvic Sanitation Initiatives), Arne Panesar (GIZ), Barbara Jeanne Ward (Eawag), Bastian Etter (VUNA), Björn Vinnerås (SLU), Christian Zurbrügg (Eawag/SLU), Christoph Lüthi (Eawag), Cecilia Lalander (SLU), Daniel Ddiba (SEI), Dorothee Sphuler (Eawag), Ebenezer Soh Kengne (University of Bamenda), Elhadji Mamadou Sonko (Cheikh Anta Diop University), Elisabeth Kvarnström (RISE), Ershad Ulla Khan (SLU), Eva Thorin (Mälardalen University), Grietje Zeeman (Wageningen University & Research), Håkan Jönsson (SLU), Jenna Senecal (SLU), Kim Andersson (SEI), Linda Strande (Eawag), Linus Dagerskog (SEI), Luis Perez Mercado (SLU), Lukas Ulrich (Eawag), Madeleine Fogde (SEI), Melissa A. Barton, Naomi Korir (Sanivation), Peter Morgan, Priscila de Morais Lima (SLU), Prithvi Simha (SLU), Robert Gensch (German Toilet Organisation), and Sahar Dalahmeh (Uppsala University). We would like to acknowledge support from: The Swedish Research Council (grant number: 2016-06297) and
    [Show full text]