Sustainable and Economic Waste Management and Resource Recovery Techniques 1st ed. 2019 H 450 p. 18
目次
Pyrometallurgical recovery: melting, solidification and vitrification of waste materials for waste management and recycling of reusable materials.- Hydrometallurgical processes for recovery of value metals from metallurgical slags. - Resource recovery and life cycle assessment of iron ore waste with zero-waste approach in iron ore mining.- Fractionation and recovery of value added materials from steel processing slags by physical, chemical and biotechnological processes and waste management.- Recovery of REEs from metallurgical slags and electronic wastes.- Re-use of coal mining and coke processing waste with zero-waste approach.- Sustainable and economically profitable re-use of bauxite mining waste with life cycle assessment.- Recycling of wastewaters (e.g., gold mine) and sulfide flotation process effluents in mining and metallurgical industry.- Remediation, recycling and recovery of resources from REE mining waste.- Recovery of value metals/ value added by products (Au, PGMs, REEs, Se, Pb, etc) from base metals refinery anode slims.- Remediation, recycling and recovery of resources from platinum group mining waste.- Fertilizer recycling and recovery from phosphate and potassium mining waste.- Biogeochemical reactions for neutralization of alkaline mining waste, reduction of greenhouse gas emissions and waste management.- Revegetation of energy crops on acidic and alkaline toxic metal-rich mining waste: carbon sequestration, energy production and waste management.- Hyperaccumulating plants and algae to phytoextract and recover the valuable elements from the mining waste.- Biogeochemical reactions for pedogenesis and soil formation in waste, degradation of organic contaminants and plant growth for waste management.- Permanent landfill and stabilization for the remediation of municipal and industrial wastes.- Energy (biogas) recovery, recycling and life cycle assessment of municipal waste: technological progress and economic sustainability.- Fertilizers and nutrient recovery from municipal waste and waste management.- Energy and nutrient recovery from agricultural waste.- Nutrient recovery from food, industrial and processing waste and effluent disposal points in river and estuary.
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