{"product_id":"sustainable-advanced-technologies-for-industrial-pollution-control-9783032079619","title":"Sustainable Advanced Technologies for Industrial Pollution Control","description":"\u003cb\u003eBook Synopsis\u003c\/b\u003e\u003cbr\u003e\u003cp class=\"MsoNormal\"\u003e1.Water quality distribution in durgam cheruvu lake.- 1.2Monitoring of water quality variation trends in a coastal wetland system, a ramsar site: a gis and water quality index based assessment.-1.3 Efficiency evaluation of fe-cu composite adsorbent for arsenic removal.-1.4 Quality improvement of a piped water supply with high hardness and chloride by electro-dialysis process.-1.5 Assessment of attenuation potential of a fine-grained indian clay soil for lead (pb2+) removal with performing batch study and kinetic-isotherm modelling.-1.6 Artificial neural network (ann) modeling of fluoride adsorption by chloride-doped-polyaniline in a fixedbed column study.-1.7 Modeling and optimization of arsenic removal in presence of total organic carbon (toc) by iron functionalized reduced graphene oxide (frgo) .-2.1 Removal of methyl green dye by adsorption using nitrogen-doped graphitic carbon nitride.- 2.2 Combined carbon and nitrogen removal from synthetic wastewater in an mbhbr coupled with mbr.-2.3 Sulfuric acid-impregnated petai pod activated carbon for landfill leachate treatment: ann prediction modelling.-2.4 Machine learning-based performance evaluation and optimization of biological reactors for sewage water treatment.-2.5 Synthesis and application of ag+-htnt on br9 adsorption from wastewater.- 2.6 Phosphate adsorption from wastewater on the synthetic low-cost adsorbent synthetic-iron-oxide-merged-crushers-waste (siomcw).-2.7 Reuse implications of spent biosorbent in removal of dye .-2.8 Adsorptive removal of methylene blue and congo red in binary solute using raw rice husk as a low-cost adsorbent.-3.1The carbon footprint of an urban area: a case study \u003cspan style=\"mso-tab-count: 1;\"\u003e \u003c\/span\u003eon the“l ward”(kurla) of municipal corporation of greater mumbai.-3.2\u003cspan style=\"mso-spacerun: yes;\"\u003e T\u003c\/span\u003ehe greenhouse gas emission of mumbai city.- 3.3 A study of the quality and effectiveness of environmental impact assessment (eia) in the context of indian active pharmaceutical ingredients (api) industry.-3.4 Design of a sustainable, modified concrete by partial replacement of cement using ground granulated blast furnace slag and limestone powder to reduce carbon footprint.-4.1 Influence of waste tyre derived material on shear strength of soil.- 4.2 Sorptivity of plasticized alkaliactivated concrete from waste.-4.3 Development \u003cspan style=\"mso-tab-count: 1;\"\u003e \u003c\/span\u003eof composite insulation board using high- density polyethylene caps of bottles for cavity wall applications.- 4.4 Physical and chemical characterization of various grades of natural fine aggregate and recycled fine aggregate.-4.5 Predicting e-waste trajectory: a comparative analysis.- 5.1 Forecasting solid waste generation and its composition in visakhapatnam: a case study.-5.2 Performance of batch studies on composting of kitchen vegetable waste.-5.3A sustainable strategy to control urban pollution from municipal solid waste management practice- a case study of smart city, newtown.-6.1The potential application of mercury-resistant bacterial strain (iitism24id) in mercury removal.-6.2Primary treatment of synthetic plastic waste materials.- 6.3Recovery of lithium from end-oflife mobile phone battery waste.-6.4Distribution of microplastics in semi-urban estuary water along the west coast of india.\u003c\/p\u003e","brand":"Springer","offers":[{"title":"Default Title","offer_id":53195534401879,"sku":"9783032079619","price":179.99,"currency_code":"GBP","in_stock":true}],"url":"https:\/\/bookcurl.com\/products\/sustainable-advanced-technologies-for-industrial-pollution-control-9783032079619","provider":"Book Curl","version":"1.0","type":"link"}