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This volume discusses: (1) the treatment of hazardous sludge, wastewater, textile effluent, contaminated groundwater, laboratory waste, toxic dye, heavy metals, acid mine drainage and palm oil effluent; (2) the technologies of stabilization, solidification, natural coagulation-flocculation, river catchment control and mitigation, dredging and mining operations, and (3) the management of acid mines, laboratories, nano pollutants and plant effluents.
This book and its 2 sister books (Volumes 2 and 3) of the Handbook of Environmental Engineering (HEE) series have been designed to serve as a mini-series covering agricultural and green biotechnologies. It is expected to be of value to advanced undergraduate and graduate students, to designers of sustainable biological resources systems, and to scientists and researchers. The aim of these books is to provide information on treatment and management of agricultural, pharmaceutical and food wastes and to serve as a basis for advanced study or specialized investigation of the theory and analysis of various integrated environmental control and waste recycle systems. Volume 1 covers topics on: treatment and management of livestock wastes; waste treatment in the pharmaceutical biotechnology industry using green environmental technologies; vermicomposting process for treating agricultural and food wastes; the impacts of climate change on agricultural, food, and public utility industries; innovative PACT activated sludge, CAPTOR activated sludge, activated bio-filter, vertical loop reactor, and PHOSTRIP processes; agricultural waste treatment by water hyacinth aquaculture, wetland aquaculture, evapotranspiration, rapid rate land treatment , slow rate land treatment, and subsurface infiltration; production and applications of crude polyhydroxyalkanoate-containing bioplastic from agricultural and food-processing wastes; optimization processes of biodiesel production from pig and neem seeds blend oil using alternative catalysts from waste biomass; making castor oil a promising source for the production of flavor and fragrance through lipase mediated biotransformation; and waste treatment and minimization in baker's yeast industry.
This book is the first volume in a three-volume set on Solid Waste Engineering and Management. It provides an introduction to the topic, and focuses on legislation, transportation, transfer station, characterization, mechanical volume reduction, measurement, combustion, incineration, composting, landfilling, and systems planning as it pertains to solid waste management. The three volumes comprehensively discuss various contemporary issues associated with solid waste pollution management, impacts on the environment and vulnerable human populations, and solutions to these problems.
Outlines the fundamentals and developments in hazardous waste treatment in various process industries, such as metal finishing, photographic processing, wood treatment, and explosives. This book provides information that is applicable to the waste management problems in the industry.
A panel of respected air pollution control educators and practicing professionals critically survey the both principles and practices underlying control processes, and illustrate these with a host of detailed design examples for practicing engineers. The authors discuss the performance, potential, and limitations of the major control processes-including fabric filtration, cyclones, electrostatic precipitation, wet and dry scrubbing, and condensation-as a basis for intelligent planning of abatement systems,. Additional chapters critically examine flare processes, thermal oxidation, catalytic oxidation, gas-phase activated carbon adsorption, and gas-phase biofiltration. The contributors detail the Best Available Technologies (BAT) for air pollution control and provide cost data, examples, theoretical explanations, and engineering methods for the design, installation, and operation of air pollution process equipment. Methods of practical design calculation are illustrated by numerous numerical calculations.
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