The purpose of BioWATT is to provide a quick and preliminary assessment of wastewater-to-energy projects.Based on as little as two inputs provided by the user (average hydraulic load and average inflow BOD5 concentration).
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Factsheet: Municipal Wastewater Methane: Reducing Emissions, Advancing Recovery and Use Opportunities
This factsheet provides a concise reference describing the sources of methane emissions in WW plants, and opportunities for methane recover and utlization. Additional two case studies are included describing recovery and use of methane within WWTPs globally.
Greenhouse Gases Emissions from Wastewater Treatment Plants: Minimization, Treatment, and Prevention
This article reviews three different ways to reduce GHG emission in wastewater treatment plants: (1) Minimization through change in operational parameters, (2) Treatment of the gaseous streams, and (3) Prevention by applying new configurations and processes to reduce both pollutants and GHG emissions.
The Roadmap to a Low-Carbon Urban Water Utility
An international guide to the WaCCliM approach
The Roadmap to a Low-Carbon Urban Water Utility presents utility managers with an approach to address their most pressing challenges, while reducing carbon emissions through
measures that either have a return on investment through energy or water savings, or that correspond to planned investments as part of the asset management plan to maintain or improve their services. Utilities adopting this approach are contributing to a carbon-neutral future, by instigating a change of mind-set, not only in urban water management but also by inspiring all other urban services through sharing the risks and the urgency to act to avoid aggravated impacts of climate change, of which water utilities are among the first victims: water scarcity, flooding and deteriorated water quality
Biogas valorization and efficient energy management – Best practices for improved sludge digestion
This review covers state-of-the-art technologies for advanced anaerobic digestion of municipal sewage sludge. It is based on an extensive review of literature and available data, focussing on processes which have been realized in full-scale plants. The review includes information on single-stage mesophilic digestion, thermophilic digestion, temperature-phased digestion, high-load digestion and other process modifications, as well as mechanical, thermal, chemical, and biological disintegration methods. All processes are described with a set of key performance indicators such as degradation rate of volatile solids, biogas yield, return load, effects on dewatering, and capital costs.
Water reuse and reclamation: a contribution to energy efficiency in the water cycle
Water and energy are two of the most important resources of the 21st century. Water is required to supply energy and, at the same time, energy is required to supply water. In urban water management, the key factor is warm water heating. Depending on the quality of the raw water, the
provision of drinking water requires the application of different process technologies; the more complex the methods, the higher the energy demand. As in metropolitan areas, in particular, water consumption exceeds local availability, water pipelines are necessary with respective energy demand. The reuse of water can contribute significantly to conserve water and energy resources. Usually, the water to be reclaimed is supplied locally, making long-distance transport dispensable. By adjusting the process technology to the intended function (fit for purpose), it is possible to minimize the energy demand as well. Water use implies the input of energy (heat, chemically bound energy in form of organic matter) as well as nutrients (nitrogen, phosphorus, etc.). In the context of implementing water reuse technologies, they can also be reclaimed.
Uso seguro del agua para el reúso
Gives a broad picture of wastewater treatment and reuse; its safe use as a fundamental aspect in water efficiency and security; technologies and biological processes for the treatment of wastewater destined for reuse, policies and regulations for the reuse of wastewater in some countries of Latin America (document is in Spanish).
GUIA’s WWTP 0-100% Energy self-sufficient
Guia’s Wastewater Treatment Plant (WWTP) one of EPAL main assets, is the largest Portuguese WWTP and one of the main engineering works in Portugal due to the complexity of its technical solution, the requirements of the receiving environment (bathing area) and urban planning (tourist zone).
From Data Management to Greenhouse Gas Monitoring
This factsheet provides guidance on how to use the ECAM tool to monitor total greenhouse gas emissions and energy consumption.
The Biosolids Emissions Assessment Model (BEAM)
Biosolids management practices are evaluated based on environmental, economic and social impacts. A consideration of increasing importance is the impact of greenhouse gas (GHG) emissions from biosolids (treated sludge). BEAM tool was developed for calculating GHG emissions from biosolids management.