Different strategies and methods to achieve the target of recovering phosphorus from sludge are discussed based on reports from the Swedish environment protection agency (SEPA) and with special emphasis on extraction of phosphate from wastewater, sludge and ash at central plants. Some possible improvements are briefly discussed, such as the use of certain comparatively clean sludge fractions and use of two-stage technology for the recovery.
HULTMAN, B. LEVLIN, E. PLAZA, E. STARK, K. (n.y): Phosphorus Recovery from Sludge in Sweden - Possibilities to meet proposed Goals in an efficient, sustainable and economical Way. URL [Visita: 27.05.2019]Library
The aim of this paper, which is based on a literature review, is to discuss the various options to recover energy from sewage sludge and to assess qualitatively these options with respect to the development stage, potential of energy recovery, and expected future developments. In this evaluation the effect of the presence of toxic organic and inorganic components in the sludge is also assessed.
RULKENS, W. (2007): Sewage Sludge as a Biomass Resource. Entradas: Energy & Fuels 2008: Volume 22 , 9–15. URL [Visita: 27.05.2019]Brochure explaining the construction and functioning of the struvite reactor.
EAWAG (2009): How to produce fertilizer from urine: Struvite. Brochure in English/Nepali. Duebendorf: Swiss Federal Institute of Aquatic Science and Technology (EAWAG) URL [Visita: 27.05.2019]The present study provides an overall perspective on technologies for the recovery of phosphorus from wastewater treatment plants and the opportunities they offer. It differs from previous work in that it not only provides technical process details, but also – and particularly – highlights the status of development, probable availability, and economic viability of the processes, providing the reader with an aid in decision making.
BAFU (2010): Rueckgewinnung von Phosphor aus der Abwasserreinigung. Bern: Department of the Environment, Transport, Energy and Communications, Switzerland (FOEN/BAFU) URL [Visita: 27.05.2019]Sludge Treatment and Disposal is the sixth volume in the series Biological Wastewater Treatment. The book covers in a clear and informative way the sludge characteristics, production, treatment (thickening, dewatering, stabilisation, pathogens removal) and disposal (land application for agricultural purposes, sanitary landfills, landfarming and other methods). Environmental and public health issues are also fully described.
ANDREOLI, C.V. ; SPERLING, M. von ; FERNANDES, F. (2007): Sludge Treatment and Disposal. (= Biological Wastewater Treatment Series , 6 ). London: International Water Association (IWA) Publishing URL [Visita: 27.05.2019]Microbial fuel cells (MFCs) have been used to produce electricity from different compounds, including acetate, lactate, and glucose. In this report, it is demonstrated that it is also possible to produce electricity in a MFC from domestic wastewater, while at the same time accomplishing biological wastewater treatment (removal of chemical oxygen demand; COD).
LIU, H. ; RAMNARAYANAN, R. ; LOGAN, B.E. (2004): Production of Electricity during Wastewater Treatment Using a Single Chamber Microbial Fuel Cell. Entradas: Environ. Sci. Technol.: Volume 38 , 2281-2285. URL [Visita: 27.05.2019]Rather old design manual for onsite wastewater treatment options. However, valuable information on established systems such as septic tanks, sandfilters, aerobic treatment units (suspendend growth and fixed film), disinfection, nutrient removal as well as wastewater segregation and recycling are given. Additional information is given on disposal methods and appurtenances.
U.S. EPA (1980): Design Manual - Onsite Wastewater Treatment and Disposal Systems. (= EPA 625/1-80-0 ). United States Environmental Protection Agency and Office of Water Office of Research and Development URL [Visita: 27.05.2019]This guide describes a marketing approach to composting, and is intended to help compost producers run more viable initiatives by unlocking the value of their product. The handbook does not cover everything there is to know about marketing, but starts with the basics and introduces the key principles and techniques. These include understanding the ‘marketing environment’, identifying appropriate target customer groups, and developing and promoting products to suit the market.
ROUSE ROTHENBERGER, S. ZURBRUEGG, C. (2008): Marketing Compost. A Guide for Compost Producers in Low and Middle-Income Countries. Duebendorf: Water and Sanitation in Developing Countries (SANDEC), Swiss Federal Institute for Environmental Science (EAWAG) URL [Visita: 27.05.2019]10 to 20m3 biogas digesters were installed in three different prisons and fed with human excreta and kitchen waste. Pathogen requirement were only partially fulfilled and slurry application as fertilizer needs further investigation and promotion.
EAWAG ; SANDEC (2009): Evaluation of Biogas Sanitation Systems in Nepalese Prisons. Summary Presentation of Evaluation Results. Duebendorf: Swiss Federal Institute of Aquatic Science (EAWAG), Department of Water and Sanitation in Developing Countries (SANDEC). [Accessed: 27.04.2010] PDFSupercritical water oxidation (SCWO) is an innovative and effective destruction method for organic wastewater and sludge. Several tests of the destruction of sewage sludge by SCWO have been done at two state-of-the-art pilot plants.
GIDNER , A. STENMARK, L. (n.y): Supercritical Water Oxidation of Sewage Sludge – State of the Art. Karlskoga: Chematur Engineering AB URL [Visita: 27.05.2019]Microbial fuel cells (MFCs) are emerging as promising technology for the treatment of wastewaters. The potential energy conversion efficiencies are examined. The rates of energy recovery (W/m3 reactor) are reviewed and evaluated. Some recent data relating to potato-processing wastewaters and a hospital wastewater effluent are reported. Finally, a set of process configurations in which MFCs could be useful to treat wastewaters is schematised. Overall, the MFC technology still faces major challenges, particularly in terms of chemical oxygen demand (COD) removal efficiency.
AELTERMAN, P. ; RABAEY, K. ; CLAUWAERT, P. ; VERSTRAETE, W. (2006): Microbial Fuel Cells for Wastewater Treatment. Entradas: Water Science & Technology: Volume 54 , 9-15. URL [Visita: 27.05.2019]In this chapter, a variety of secondary sludge post treatment methods for energy recovery, including incineration, gasification, pyrolysis, direct liquefaction, supercritical water oxidation (SCWO) and anaerobic digestion were overviewed. A critical comparison between these methods is presented with respect to their net energy efficiencies. The advantages and drawbacks of each treatment option are also highlighted.
XU, C.C. LANCASTER, J. (n.y): Treatment of Secondary Sludge for Energy Recovery. Thunderbay: Department of Chemical Engineering, Lakehead University URL [Visita: 27.05.2019]On its homepage, the EAWAG (Swiss Federal Institute of Aquatic Science and Technology) is highlighting one of their innovative research projects in Nepal, which combines improved sanitation with increased food security. The STUN project investigated the feasibility of collecting urine to produce a phosphorus-based fertiliser called Struvite.
This article investigates the potential for using soil solution chemical properties to study the consequences of recycling sewage-sludge incinerator ash on agricultural land.
BIERMAN, P. ; ROSEN, C. ; BLOOM, P. ; NATER, E. (1995): Soil Solution Chemistry of Sewage-Sludge Incinerator Ash and Phosphate Fertiliser Amended Soil. Entradas: Journal of Environmental Quality: Volume 24 , 279-285. URL [Visita: 27.05.2019]This study focused on the main components of sewage sludge incinerated ash, which are silicic acid and alumina, as well as the components for nucleation. Based on this idea, the production of glass-ceramic using sewage sludge incinerated ash as the main material has been attempted.
SUZUKI, S. ; TANAKA, M. ; KANEKO, T. (1997): Glass-ceramic from Sewage Sludge. Entradas: Journal of Materials Science: Volume 32 , 1775-1779. URL [Visita: 27.05.2019]This presentation describes the need for recycling phosphorus and the economic sector of the enterprise. There is further information on the process and the pilot plant. Aspects of benchmark and finance are included as well as a brief description of the need for recycling phosphorous (in German).
HERMANN, L. BACHLEITNER, E. (2004): Recycling von Phosphor aus Klärschlammaschen. Vienna: ASH DEC Umwelt AG URL [Visita: 27.05.2019]The intermediate project report gives an overview on the STUN (Struvite Recovery from Urine in Nepal) project. STUN is a joint collaboration project of Eawag (Swiss Federal Institute of Aquatic Science and Technology) and UN-Habitat Nepal (The United Nations Human Settlement Pro¬gramme). The goal of the STUN project is a feasibility assessment of the conversion of urine into Struvite powder as a viable means for capturing the nutrients contained in source separated urine.
ETTER, B. (2009): Struvite recovery from urine at community scale in Nepal. Project intermediate report submitted to EPFL (Swiss Federal Institute of Technology Lausanne). Kathmandu: UN Habitat URL [Visita: 27.05.2019]The webpage of Midwest Rural Energy Council (MREC) provides a wide range of information on implementing small- and mid-scale biogas plantations in order to produce electricity.