01266nam--2200433---450-99000031465020331620140331122041.00-471-23973-90031465USA010031465(ALEPH)000031465USA01003146520001214d1998----km-y0itay0103----baengUS||||||||001yyIntroductory nuclear physicsSamuel S.M. Wong2nd ed.New YorkJonh Wiley1998XII, 460 p.ill.25 cm001-------2001Fisica nucleare539.7WongSamuel S.M.542439ITsalbcISBD990000314650203316539.7 WON25305 SCI53900329546BKSCITAMI4020001214USA011637TAMI4020001214USA011652TAMI4020001214USA011656PATTY9020001214USA01185320020403USA011639PATRY9020040406USA011622ANGELA9020140331USA011216ANGELA9020140331USA011220Introductory nuclear physics879244UNISA05186nam 2201477z- 450 991059507800332120220916(CKB)5680000000080746(oapen)https://directory.doabooks.org/handle/20.500.12854/92158(oapen)doab92158(EXLCZ)99568000000008074620202209d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierModelling and Calculation of Raw Material IndustryBasel20221 online resource (250 p.)3-0365-5212-X 3-0365-5211-1 The raw materials industry is widely considered to be too environmentally costly, and causing more losses than benefits. The responsible solving of the problems caused by this industry is not "exporting" its operations to less developed countries, but addressing all recognized hazards with dedicated technological developments. Such an approach is presented by the authors of this book. The contributions deal with the optimization of processes in the raw materials industry, obtaining energy from alternative fuels, researching the environmental aspects of industrial activities. This book determines some guidelines for the sustainable raw materials industry, describing methods of the optimized use of mined deposits and the recovery of materials, reductions in energy consumption and the recuperation of energy, minimizations in the emissions of pollutants, the perfection of quieter and safer processes, and the facilitation of modern materials-, water-, and energy-related techniques and technologies.History of engineering & technologybicsscTechnology: general issuesbicsscacid leachingactivated carbonadsorption kineticsair flow aerodynamicsair pollutionair quality monitoringbattery recyclingbelt conveyorbench testingbiogas plantbiomass ashboiler tube wastagecoal ashcost of productiondiagnosticsdigestatedimension natural stone processingdiscrete event simulationdownhill transport of overburdendual-frequencydynamic loadecological safetyemission reduction methodsenergy conversion and storageenergy recoveryenergy recovery rateFEM simulationfire-side corrosionfly ashfossil fuelsfoulingGHG emissionsH2Sheating and energy processeshydraulic leghydrothermal carbonisationindustrial waste treatmentindustrial-scale boilersinertial vibratorion flotationLi-ion batteriesmechanical testmembrane processesmetal recoverymine machineMn(II)non-destructive inspectionoutdoor air qualitypipe inspectionPM1.0PM10PM2.5powerpowered roof supportpressure drop testprosumerpurification and removal techniquespyrolysisquarryraw material sustainable useraw material sustainable-use fossil fuelsrecoveryrecuperationsieving screensinteringslaggingSO2specific energy consumptionspectrumstable isotopesstatistical regressionstone wastestreet canyonsustainable manufacturingsustainable miningTGthermal analysisthermal lagunburned carbonused batteriesVOCwall thickness measurementwaste generationwaste managementwaste recyclingwater recoveryZn(II)History of engineering & technologyTechnology: general issuesCzajka Krzysztofedt1311311Kawalec WitoldedtKról RobertedtSówka IzabelaedtCzajka KrzysztofothKawalec WitoldothKról RobertothSówka IzabelaothBOOK9910595078003321Modelling and Calculation of Raw Material Industry3030229UNINA