DOCSLIB.ORG

Health and Safety Plan

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Health and Safety Plan APPENDIX C Health and Safety Plan Lower Duwamish Waterway Superfund Site: EE/CA Work Plan T-117 Early Action Area March 13, 2008 CONTENTS 1. INTRODUCTION.....................................................................................................................1 1.1. Purpose ..........................................................................................................................1 1.2. Policy .............................................................................................................................1 1.3. Stop Work Authority........................................................................................................1 1.4. Management of Change (MOC) .....................................................................................2 1.5. Modifications...................................................................................................................2 1.6. Approval and Dissemination...........................................................................................2 1.7. Responsibilities...............................................................................................................3 1.7.1. Project Manager...................................................................................................3 1.7.2. Regional Health and Safety Manager ..................................................................3 1.7.3. Site Safety Officer ................................................................................................4 1.7.4. Field Personnel ....................................................................................................5 1.7.5. Subcontractors.....................................................................................................6 2. SITE HISTORY/DESCRIPTION..............................................................................................7 2.1. Site description ...............................................................................................................7 2.2. Historical Site Operations and Remediation...................................................................7 Map 1. T-117 Early Action Area.......................................................................................8 3. SCOPE OF WORK .................................................................................................................9 4. CHEMICAL HAZARDS.........................................................................................................10 4.1. Chemical Hazards ........................................................................................................10 4.2. PCBs ...........................................................................................................................10 4.3. Petroleum Hydrocarbons..............................................................................................10 4.3.1 Fuel Oils (Diesel, etc.)........................................................................................10 4.3.2 Waste Oils and PAH’s (SemiVolatiles)...............................................................11 4.3.3 Hazardous Properties of Potential Chemical Contaminants ..............................11 4.4 RCRA Metals (lead)......................................................................................................11 4.3.1 Hazardous Properties of Potential Chemical Contaminants ..............................12 4.4 Hazardous Substances Brought On-Site by ENSR or Subcontractor ..........................12 4.5 Hazard Potential / Control.............................................................................................13 Hazard Potential...........................................................................................................13 Hazard Control .............................................................................................................13 5. PHYSICAL HAZARDS..........................................................................................................14 5.1. Driving Safety ...............................................................................................................14 5.1.1. Planning / Preparation........................................................................................14 5.1.2. Distractions ........................................................................................................14 5.1.3. Secure Packing..................................................................................................14 5.2. Utility Hazards...............................................................................................................14 5.2.1. Underground Utilities..........................................................................................15 5.2.2. Overhead Utilities...............................................................................................16 5.3. Hand Tools ...................................................................................................................16 5.3.1. Hand Protection .................................................................................................16 Groundwater Sampling and Well Installation i March 2008 Terminal 117 Seattle, Washington 5.4. Traffic Control Hazards.................................................................................................17 5.4.1. ENSR Employees ..............................................................................................17 5.4.2. Patrons, Residents, General Public ...................................................................19 5.5. Drilling Hazards ............................................................................................................19 5.5.1. Hazards from Chipping Asphalt and Concrete...................................................19 5.5.2. Air Knifing / Vacuum Excavation........................................................................19 5.5.3. Hand Auguring ...................................................................................................19 5.5.4. Conventional Drilling ..........................................................................................20 5.6. Electrical Hazards.........................................................................................................21 5.7. Handling of Compressed Gases...................................................................................22 5.8. Cuts and Lacerations....................................................................................................22 5.9. Noise ...........................................................................................................................22 5.10. Back Safety/Lifting .............................................................................................23 5.11. Inclement Weather.............................................................................................24 5.12. Thermal Stress...................................................................................................24 5.12.1. Cold Stress ..................................................................................................24 5.13. Poisonous Plants / Insects.................................................................................25 6. AIR MONITORING................................................................................................................28 6.1 Direct Reading Instrumentation ....................................................................................28 6.2 Personal Exposure Monitoring......................................................................................29 6.3 Calibration and Recordkeeping ....................................................................................29 7. PERSONAL PROTECTIVE EQUIPMENT ............................................................................30 7.1. Protective Clothing........................................................................................................30 7.2. Respiratory Protection ..................................................................................................30 7.3. Other Safety Equipment ................................................................................................31 8. SITE CONTROL ....................................................................................................................32 8.1 Designation of Zones ....................................................................................................32 8.1.1. Exclusion Zone ..........................................................................................................32 8.1.2. Contamination Reduction Zone .................................................................................32 8.1.3. Support Zone .............................................................................................................32 8.2 Safety Measures/Precautions........................................................................................33 9. DECONTAMINATION...........................................................................................................34 10. WASTE MANAGEMENT ......................................................................................................35 11. MEDICAL/TRAINING REQUIREMENTS..............................................................................36 11.1 Medical Surveillance.....................................................................................................36
Load more

Recommended publications
  • Addressing Fecal Sludge Management in Rural Locations | Cambodia | Ideglobal.Org | Page 1
    Addressing Fecal Sludge Management in Rural Locations | Cambodia | ideglobal.org | Page 1 TACTIC REPORT Addressing Fecal Sludge Management in Rural Locations Pit latrines have become the solution for rural sanitation in many of the world’s poorest, remote, and difficult to access locations. At some point in time, the pit fills. What can households in these areas do to safely manage their sanitation needs? Context As sanitation coverage increases across the globe, fecal sludge management (FSM) is becoming increasingly important as the next sanitation issue that needs to be addressed. Most FSM solutions are designed for urban environments and involve collection (by vacuum truck or manual emptying) and mass treatment (e.g., ponds, aerobic digesters). For rural communities and households in Cambodia, these solutions present both economic and logistical challenges. Households in some areas have been able to manage their pit emptying issues with the service of pump trucks that come directly to the household. However, these solutions are still relatively expensive, are sometimes unable to navigate rural roads, and many hand-made varieties of these trucks lack the ability to hygienically remove and transport waste. As motor-powered pumps are Addressing Fecal Sludge Management in Rural Locations | Cambodia | ideglobal.org | Page 2 becoming cheaper, households are increasingly opting to use these over manual emptying with buckets. Yet despite increasing availability of pumps and trucks, waste disposal is rarely handled safely. In rural areas, the cost of constructing and maintaining a safe, hygienic treatment collection plant is prohibitive. The economies of scale that enable mass waste treatment plants to operate sustainably in urban areas are simply not available in rural villages.
    [Show full text]
  • Vacuum Truck Standard Work Practice 1 Document
    VACUUM TRUCK STANDARD WORK PRACTICE DOCUMENT INFORMATION Description Provides guidance for the safe operation and maintenance of Vac Truck equipment and describes methods for eliminating or reducing hazards and risks associated with vacuuming operations. Revision 2 Effective Date: September 24, 2018 Originator: Floyd Keller, Director EHS Approval: Dean Wallace, CEO TABLE OF CONTENTS PURPOSE……………………………………………………………………………………..... 2 SCOPE…………………………………………………………………………………………… 2 RESPONSIBILITIES………….…………………………………………………………………. 2 PERSONAL PROTECTIVE EQUIPMENT……………………………………………………. 2 PRE-OPERATIONAL PROCEDURES………………………………………………………. 3 OPERATING PROCEDURES………………………………………………………………… 4 HOSES AND CONTAINMENT…………………………………………………………………. 7 BONDING, GROUNDING AND VENTING……………………………………………………. 8 LIQUID VACUUM TRUCK SAFETY PROCEDURES……………………………………….. 9 MATERIAL CHARACTERISTICS AND HAZARDS………………………………………….. 9 LOADING AND OFF-LOADING SITE PREPARATION AND CONDITIONS……………... 9 VACUUM TRUCK OPERATOR REQUIREMENTS………………………………………….. 9 PORTABLE RAMP OFF-LOADING SAFETY PROCEDURES…………………………….. 10 COLLECTOR TANK OFF-LOADING………………………………………………………….. 10 WASH-OUT PROCEDURES……………………………………………………………………. 10 DOCUMENTATION………………………………………………………………………………. 11 CONTINUITY TESTING…………………………………………………………………………. 11 NATURE OF VACUUM TRUCK INJURIES…………………………………………………… 11 TRAINING…………………………………………………………………………………………. 12 1 VACUUM TRUCK STANDARD WORK PRACTICE 1. PURPOSE 1.1. To establish a procedure for safe operation of industrial vacuum loading equipment including personal protective equipment standards,
    [Show full text]
  • Sanitation System – Emptying and Transporting Fecal Sludge Technical Brief
    Technical Brief: Sanitation System – Emptying and Transporting Fecal Sludge Sanitation System User Excreta Emptying Use or Treatment Interface Storage and Disposal Transport Contents 1 Introduction ........................................................................................................................ 2 2 Service Provision ............................................................................................................... 3 3 Emptying Technologies ..................................................................................................... 4 3.1 Manual Emptying ........................................................................................................ 5 3.2 Mechanized Emptying ................................................................................................. 7 4 Transportation Methods .................................................................................................... 9 5 Relocating Latrines .......................................................................................................... 11 6 Risk Management ............................................................................................................. 12 7 Definitions ........................................................................................................................ 13 8 Additional Resources ...................................................................................................... 15 9 References.......................................................................................................................
    [Show full text]
  • Safe Operation of Vacuum Trucks in Petroleum Service
    Safe Operation of Vacuum Trucks in Petroleum Service API RECOMMENDED PRACTICE 2219 THIRD EDITION, NOVEMBER 2005 REAFFIRMED, NOVEMBER 2012 --``,,```,`,,,`,,`````,,,,``,``-`-`,,`,,`,`,,`--- Copyright American Petroleum Institute Provided by IHS under license with API Licensee=Shell Global Solutions International B.V. Main/5924979112, User=Elliott No reproduction or networking permitted without license from IHS Not for Resale, 12/30/2013 09:55:43 MST --``,,```,`,,,`,,`````,,,,``,``-`-`,,`,,`,`,,`--- Copyright American Petroleum Institute Provided by IHS under license with API Licensee=Shell Global Solutions International B.V. Main/5924979112, User=Elliott No reproduction or networking permitted without license from IHS Not for Resale, 12/30/2013 09:55:43 MST Safe Operation of Vacuum Trucks in Petroleum Service Downstream Segment API RECOMMENDED PRACTICE 2219 THIRD EDITION, NOVEMBER 2005 REAFFIRMED, NOVEMBER 2012 --``,,```,`,,,`,,`````,,,,``,``-`-`,,`,,`,`,,`--- Copyright American Petroleum Institute Provided by IHS under license with API Licensee=Shell Global Solutions International B.V. Main/5924979112, User=Elliott No reproduction or networking permitted without license from IHS Not for Resale, 12/30/2013 09:55:43 MST SPECIAL NOTES API publications necessarily address problems of a general nature. With respect to particular circumstances, local, state, and federal laws and regulations should be reviewed. Neither API nor any of API's employees, subcontractors, consultants, committees, or other assignees make any warranty or representation, either express or implied, with respect to the accuracy, completeness, or usefulness of the information contained herein, or assume any liability or responsibility for any use, or the results of such use, of any information or process disclosed in this publication. Neither API nor any of API's employees, subcontractors, con- sultants, or other assignees represent that use of this publication would not infringe upon pri- vately owned rights.
    [Show full text]
  • On-Site Wastewater Treatment and Reuses in Japan
    Proceedings of the Institution of Civil Engineers Water Management 159 June 2006 Issue WM2 Pages 103–109 Linda S. Gaulke Paper 14257 PhD Candidate, Received 05/05/2005 University of Washington, Accepted 01/11/2005 Seattle, USA Keywords: sewage treatment & disposal/ water supply On-site wastewater treatment and reuses in Japan L. S. Gaulke MSE, MS On-site wastewater treatment poses a challenging toilets. Since then, sewers and johkasou have developed side problem for engineers. It requires a balance of appropriate by side. levels of technology and the operational complexity necessary to obtain high-quality effluent together with As of the year 2000, 71% of household wastewater in Japan adequate reliability and simplicity to accommodate was receiving some type of treatment and 91% of Japanese infrequent maintenance and monitoring. This review residents had flush toilets.1 A breakdown by population of covers how these issues have been addressed in on-site wastewater treatment methods utilised in Japan is presented in wastewater treatment in Japan (termed johkasou). On-site Fig. 1. The Johkasou Law mandates johkasou for new systems in Japan range from outmoded designs that construction in areas without sewers. Johkasou are different discharge grey water directly into the environment to from European septic tanks—even the smallest units advanced treatment units in high-density areas that (5–10 population equivalents (p.e.)) undergo an aerobic produce reclaimed water on-site. Japan is a world leader process. in membrane technologies that have led to the development of on-site wastewater treatment units capable of water-reclamation quality effluent. Alternative 1.1.
    [Show full text]
  • Faecal Sludge and Septage Management Policy and Operational Guidelines
    Greater Visakhapatnam Municipal Corporation Faecal Sludge and Septage Management Policy and Operational Guidelines The study/report is made possible by the support of the American people through the United States Agency for International Development (USAID). The contents are the sole responsibility of WSUP Advisory and do not necessarily reflect the views of USAID or the United States Government. FOREWARD Praveen Kumar, IAS District Collector and Magistrate, Visakhapatnam Safe and sustainable sanitation is a basic requirement for the people living in any city. The Ministry of Urban Development, GoI, have taken steps by way of introducing two major schemes viz; Swachh Bharat Mission Urban (SBM-U) and AMRUT. As per the Swachh Sarvekshan 2017 data, out of 4,041 cities where Ministry of Urban Development (MoUD) is presently focusing, 1012 cities have been declared Open Defecation Free (ODF). Achieving ODF is the first step towards cleaner and safer environment. The cities which have been declared ODF should now take the next step and move towards safer disposal of Faecal Sludge. The city of Visakhapatnam which has secured the rank of third cleanest city in the 2017 Swachh Sarvekshan is taking the lead in developing the Faecal Sludge and Septage Management Policy. In addition to the policy, GVMC has developed the Operational Guidelines for safe septage disposal at designated sites in the Sewage Treatment Plant. Only 26.9 per cent of the household in Visakhapatnam are connected to centralized sewerage network. Out of this only 16.17 per cent is being treated at the Sewage Treatment Plant (STPs). This policy aims to address the existing gaps and provide for safe collection, transportation, disposal as well as treatment of faecal sludge.
    [Show full text]
  • 2019122611440854594774.Pdf
    PONDICHERRY MUNICIPALITY Faecal Sludge and Septage Management Policy, Operational Guidelines and Action Plan Table of Contents Sl. Content Page No. No. 1. List of Abbreviations 1 2. Terminology 2 3. Pondicherry Municipality FSSM Policy & Action Plan Part -A 3 Policy Document 4 1. Back Ground and Purpose 4 1.1 Sanitation Status in Pondicherry Municipality 4 1.2 Need for City FSSM Policy 5 1.3 Key areas of Improvement to be addressed while formulating 5 Policy for FSSM 2. Objective and Commitments of FSSM Policy 6 2.1 Vision 6 2.2 Objectives 6 2.3 Scope 7 3. Policy Outline and Commitments 7 4. Step by Step Approach : Operationalizing FSSM 9 4.1 Collect & Containment 9 4.2 Emptying and Conveyance 10 4.3 Treatment 10 4.4 Reuse and Disposal 10 5. Legislative and Regulatory Contexts 10 5.1 Central Laws and Rules 10 5.2 State Laws, Rules and Regulations 11 5.3 Formation of Rules and Regulation at PM level 11 6. Roles and Responsibilities 12 7. Implementation Strategy 13 8. Timelines 13 9. Expected Outcomes 14 10. Policy Evaluation 15 11. Power of PM 15 4. FSSM Action Plan : Guidance Notes to Support Policy Rollout – 17 Planning Stage – Part –B 1. Snapshot of Sanitation Services in Puducherry 18 2. Planning Stage Steps 20 2.1 Standards and Norms 20 2.2 Outsourcing Emptying Service 20 2.3 Awareness Creation and Behavior Change Communication 20 2.4 Grievance Redressal 21 2.5 Planning and Scheduling Emptying of Septic Tanks 21 Sl. Content Page No. No.
    [Show full text]
  • Urban Sanitation Services
    Technical Brief 5 URBAN SANITATION SERVICES USAID Water and Development TECHNICAL SERIES INTRODUCTION In a global and increasingly urbanized world, cities play a key role in building a better future. Better managed cities with improved services contribute to improved health, governance, cleaner environments, dignity, and economic growth. However, human waste must be managed in ways that safeguard the urban environment, including water and food supplies, to maximize development outcomes. The purpose of this technical brief is to provide an overview of the important factors to consider in the United States Agency for International Development’s (USAID) urban sanitation programming. In addition to the USAID Water and Development Plan under the U.S. Global Water Strategy, this technical brief is aligned with USAID’s Sustainable Urban Services Policy, Private Sector Engagement Policy, and Environmental Natural Resource Management Framework. This document focuses on human excreta management activities that are attributable to the Agency’s Water Directive and does not include broader sanitation areas such as solid waste. KEY TAKEAWAYS • Urban sanitation is more than just toilets. Dense urban environments require consideration of the whole sanitation service chain to ensure safely managed sanitation: fecal waste containment, collection, transport, treatment, and final disposal or reuse. • Effective urban sanitation is city-wide and inclusive. There is no simple solution – rapidly growing cities require a range of technical solutions across the sanitation service chain. Ensuring that everyone benefits from safely managed sanitation requires specific approaches to target the underserved. • Apply commercial principles to service provision. Management of sanitation services is as important as the technologies involved, and financial viability is a critical element of sustainable services.
    [Show full text]
  • Compendium of Sanitation Technologies in Emergencies
    Compendium 1st Edition of Sanitation Technologies in Emergencies Compendium 1st Edition of Sanitation Technologies in Emergencies Robert Gensch (GTO), Amy Jennings (BORDA), Samuel Renggli (Eawag), Philippe Reymond (Eawag) We would like to thank the following individuals and their organisations/institutions for their invaluable contributions to this publication: Djilali Abdelghafour, Nienke Andriessen, Leonellha Barreto-Dillon, Andy Bastable, Magdalena Bäuerl, Benjamin Bernan- dino, Damian Blanc, Franck Bouvet, Patrick Bracken, Chris Buckley, Marc-Andre Bünzli, Chris Canaday, Daniel Clauss, Benjamin Dard, Malcolm Dickson, Paul Donahue, Georg Ecker, Miriam Englund, Marta Fernández Cortés, Suzanne Ferron, Claire Furlong, Sergio Gelli, Feline Gerstenberg, Moritz Gold, Celia González Otálora, Peter Harvey, Oliver Hoffmann, Tineke Hooijmans, Andrews Jacobs, Heidi Johnston, Christopher Kellner, Anthony Kilbride, Sasha Kramer, Jenny Lamb, Günther Langergraber, Anne Lloyd, Andreas Ludwig, Christoph Lüthi, Saskia Machel, Grover Mamani, Adeline Mertenat, Mona Mijthab, Alexander Miller, Patrice Moix, Paolo Monaco, Bella Monse, Hans-Joachim Mosler, Burt Murray, Arne Pane sar, Thilo Panzerbieter, Jonathan Parkinson, Dominique Porteaud, Nick Preneta, Torsten Reckerzügl, Bob Reed, Stefan Reuter, Romain Revol, Nina Röttgers, Johannes Rück, Vasco Schelbert, Jan-Christoph Schlenk, Jan-Hendrik Schmidt, Stephanie Schramm, Jan Spit, Haakon Spriewald, Steve Sugden, Annkatrin Tempel, Elisabeth Tilley, Erika Trabucco, Tobias Ulbrich, Lukas Ulrich, Claudio Valsangiacomo,
    [Show full text]
  • U.S. Environmental Protection Agency Office of Criminal Enforcement, Forensics and Training
    U.S. Environmental Protection Agency Office of Criminal Enforcement, Forensics and Training This bulletin summarizes publicized investigative activity and adjudicated cases conducted by OCEFT Criminal Investigation Division special agents, forensic specialists, and legal support staff. June 2014 In This Edition: Quick Links Patrick Brightwell — Region 3 Defendant Summary Dennis Michael Egan, Egan Marine Corporation — Region 5 Phil Joseph Rivkin, aka, Felipe Poitan Arriaga — Region 6 Plea Agreements George L. Ryals, Michael Anaker — Region 6 Glamis Dunes Storage Inc., Michael Marnelli, Sr. — Region 9 Indictments/ Informations EPA Pub. 310-N-14-006 Defendant Summary Region Defendants Case Type/Status Region 3 Patrick Brightwell CWA/Knowingly discharging pollutants without a per- mit and making false statements Region 5 Dennis Michael Egan, Egan Ma- CWA/Maritime negligence that caused thousands of rine Corporation gallons of oil to pollute a navigable U.S. waterway Region 6 Phil Joseph Rivkin, aka, Felipe Poi- CAA, Energy Independence and Security Act of 2007/ tan Arriaga Illegally created monetary incentives for the produc- tion of renewable fuels, wire fraud, mail fraud, CAA false statements, money laundering Region 6 George L. Ryals, Michael Anaker RCRA/Illegal disposal of hazardous substances Region 9 Glamis Dunes Storage Inc., SWDA/Illegal injection of pollutants and illegal dis- Michael Marnelli, Sr. posal of raw sewage Page 2 EPA Bulletin—June 2014 Plea Agreements Barge Captain and Marine Company Convicted in Fatal 2005 Explosion That Discharged Slurry Oil in Chicago Canal -- On June 9, 2014, DENNIS MICHAEL EGAN, the captain of a petroleum barge that exploded in 2005, resulting in the death of a crew member, and EGAN MARINE CORPORATION, the company that owned and operated the vessel, were convicted in federal district court for the Northern District of Illinois on federal charges of felony maritime negligence and causing thousands of gallons of oil to pollute the Chicago Sanitary and Ship Canal.
    [Show full text]
  • Business Models for Fecal Sludge Management in India
    RESOURCE RECOVERY & REUSE SERIES 18 (SPECIAL ISSUE) ISSN 2478-0529 Business Models for Fecal Sludge 18 Management in India Krishna C. Rao, Sasanka Velidandla, Cecilia L. Scott and Pay Drechsel About the Resource Recovery & Reuse Series Resource Recovery and Reuse (RRR) is a subprogram of the CGIAR Research Program on Water, Land and Ecosystems (WLE) dedicated to applied research on the safe recovery of water, nutrients and energy from domestic and agro-industrial waste streams. This subprogram aims to create impact through different lines of action research, including (i) developing and testing scalable RRR business models, (ii) assessing and mitigating risks from RRR for public health and the environment, (iii) supporting public and private entities with innovative approaches for the safe reuse of wastewater and organic waste, and (iv) improving rural-urban linkages and resource allocations while minimizing the negative urban footprint on the peri-urban environment. This subprogram works closely with the World Health Organization (WHO), Food and Agriculture Organization of the United Nations (FAO), United Nations Environment Programme (UNEP), United Nations University (UNU), and many national and international partners across the globe. The RRR series of documents present summaries and reviews of the subprogram’s research and resulting application guidelines, targeting development experts and others in the research for development continuum. RESOURCE RECOVERY & REUSE SERIES 18 (SPECIAL ISSUE) Business Models for Fecal Sludge Management
    [Show full text]
  • Faecal Sludge Management: Highlights and Exercises
    Faecal Sludge Management: Highlights and Exercises Editors Miriam Englund Linda Strande Bibliographic Reference: Englund, M. and Strande, L., (Editors). 2019. Faecal Sludge Management: Highlights and Exercises. Eawag: Swiss Federal Institute of Aquatic Science and Technology. Dübendorf, Switzerland. ISBN: 978-3-906484-70-9 © Eawag: Swiss Federal Institute of Aquatic Science and Technology Sandec: Department Sanitation, Water and Solid Waste for Development Dübendorf, Switzerland, www.sandec.ch Permission is granted for reproduction of this material, in whole or part, for education, scientific or development related purposes except those involving commercial sale, provided that full citation of the source is given. A free PDF copy of this publication can be downloaded from www.sandec.ch/fsm_tools. Text Editing: Claire Taylor Photos: Eawag-Sandec Authors Contributors and reviewers (in alphabetical order) (in alphabetical order) Nienke Andriessen Ashanti Bleich Miriam Englund Damir Brdjanovic Moritz Gold Nadège de Chambrier Marius Klinger Guillaume Clair Christoph Lüthi Kayla Coppens Samuel Renggli Marta Fernàndez Cortés Stanley Sam Christopher Friedrich Linda Strande Pavan Indireddy BJ Ward Abishek Sankara Narayan Ariane Schertenleib Dorothee Spuhler Fabian Suter Elizabeth Tilley Lukas Ulrich Imanol Zabaleta Foreword The book ‘Faecal Sludge Management: Systems Approach for Implementation and Operation’ was first published in 2014 and has since been translated into English, French, Hindi, Marathi, Russian, Spanish and Tamil. It is used by practitioners and universities around the world. Since its publication, the sector has been rapidly growing and adapting to address the need for faecal sludge management. To keep pace with rapid developments, publications are needed that can adapt more quickly during the time required for new books and book editions to be published.
    [Show full text]