Industrial waste waterNutrientRural areaRearingEutrophicationSurface waterMaterial recoveryWaste water purificationReuseIntensive rural industry is developing rapidly in parts of inland Australia. Also, coastal cities are investigating the use of sewage for crop growth, to avoid expensive treatment processes ...
Jeremy Guest, an assistant professor from the University of Illinois at Urbana-Champaign, outlined the use of microalgal bioprocesses for nutrient recovery from wastewater in his talk. “Microalgal treatment systems could significantly advance nutrient recovery from wastewater, but the successful implementati...
Industrial reuse • General cleaning (toilet flushing, car washing, street cleaning, etc.) • Potable water Improving material recovery - Implementing innovative recovery processes • Struvite precipitation • Membrane-based separation methods • Adjusting process parameters in AD to support material...
stumps, branches and leaves) and processing waste (e.g., logs and sawdust) generation and recovery depends on factors such as tree species and local geographical conditions.27For every cubic metre of logged material removed, a cubic metre of waste remains in the forest.28Harvested...
Citrate-Mediated Hydrometallurgical Lead Extraction and Integrated Electrochemical Recovery from Zinc Leaching Residue The treatment and hydrometallurgical recovery of Pb from Zinc Leaching Residue (ZLR), a waste stream generated by the zinc refining process, is proposed in... K Folens,AJ Williamson,KV...
This includes thermal recovery, in which the waste heat generated by incineration is recovered and used to generate electricity and supply heat. R Plus Japan website Social Activities Suntory Beverage & Food employees strive to change their lifestyles, practice sorting and collection, and actively par...
A systemic design approach to " recycle " a diffuse territory The contemporary European territory is the result of a long period of transition; especially during the last fifty years, in which Europe start to suffer of rather brutal de-industrialization process. The industrial shift coincided with...
Through our technologies we at Outotec contribute to the sus- tainable primary production of materials, and support the cre- ation of a circular economy by providing solutions that reduce water and energy consumption, while also minimizing waste by maximizing the recovery, reuse and recycling of ...
waste recycling and secondary recovery, for example, highlights the physical labor and cultural work through which “wastes” are dis/reassembled and revalorized as new materials. This research resonates with assemblage ontologies emerging elsewhere in the field, and has the potential to extend the ...
Objectives of both EU and Finnish national waste policy are to prevent waste and to promote re-use, recycling and recovery so as to reduce negative environmental impact. However, limited progress has been made in transforming these objectives into practice. The new Waste Framework Directive (2006/...