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Low Carbon Stabilization and Solidification of Hazardous Wastes

Forfatter: info mangler
Bog
  • Format
  • Bog, paperback
  • Engelsk

Beskrivelse

Low Carbon Stabilization and Solidification of Hazardous Wastes details sustainable and low-carbon treatments for addressing environmental pollution problems, critically reviewing low-carbon stabilization/solidification technologies. This book presents the latest state-of-the-art knowledge of low-carbon stabilization/solidification technologies to provide cost-effective sustainable solutions for real-life environmental problems related to hazardous wastes including contaminated sediments. As stabilization/solidification is one of the most widely used waste remediation methods for its versatility, fast implementation and final treatment of hazardous waste treatment, it is imperative that those working in this field follow the most recent developments. Low Carbon Stabilization and Solidification of Hazardous Wastes is a necessary read for academics, postgraduates, researchers and engineers in the field of environmental science and engineering, waste management, and soil science, who need to keep up to date with the most recent advances in low-carbon technologies. This audience will develop a better understanding of these low-carbon mechanisms and advanced characterization technologies, fostering the future development of low-carbon technologies and the actualization of green and sustainable remediation.

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  • Vægt1630 g
  • coffee cup img
    10 cm
    book img
    21,6 cm
    27,6 cm

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    Cement Heavy metal Construction materials Lime Microstructure Bioremediation Ceramics Geochemistry Geochemical modeling Contaminated sediments Building materials Heavy metals Acid rain Adsorption Hazardous wastes Leaching Mechanical properties Marine sediments Calcium carbonate Fly ash Hazardous waste Immobilization Big data Biochar Elemental Analysis Carbon emissions Circular Economy Mechanical and physical properties Durability Mechanism Environmental assessment Analytical methods Contaminated soil Environmental behavior Hazardous Ecofriendly Carbon capture and storage Issa Carbon footprint Integrated Assessment Analytical techniques Biowaste Innovative technologies Alternative materials Coal fly ash Acid mine/rock drainage Alkali-activated and geopolymer cements Alkali activated cement Alum sludge Arsenic-alkali residue Arsenic-rich flue dust Arsenic-bearing sludge Bottom Ash cementation Cement solidification Chemical and mineralogical compositions Block product Chemical fixation Compatibility system Chromite ore processing residue Blended Portland cement Biocementation Construction and demolition (C&D) waste Difficult elements Dispersive characteristics Drinking water treatment sludge (DWTS) Brick product early-age performance Calcium sulfoaluminate cements Calcium aluminate cements Concrete slurry waste Controlling factor Chemical stabilization Fiber addition Contaminated Sediment Evaluation method Green and sustainable Geopolymer Concrete Green remediation Incineration fly ash Leaching behavior Leaching toxicity test Engineered clay Magnesia-based cements Low-carbon cement additives Magnesium-rich cement Mechanical characteristics Mechanical strength flue gas purification Melting technology Glass wasteform Metallurgical solid wastes Microbial induced carbonate precipitation (MICP) MSWI Ash Incineration bottom ash low-carbon cement Mechanical performance
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