TY - BOOK ID - 145974111 TI - Modelling and Calculation of Raw Material Industry AU - Czajka, Krzysztof AU - Kawalec, Witold AU - Król, Robert AU - Sówka, Izabela PY - 2022 PB - Basel MDPI Books DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - acid leaching KW - battery recycling KW - Li-ion batteries KW - metal recovery KW - raw material sustainable use KW - sieving screen KW - inertial vibrator KW - dual-frequency KW - spectrum KW - FEM simulation KW - biomass ash KW - coal ash KW - sintering KW - mechanical test KW - pressure drop test KW - slagging KW - fouling KW - ion flotation KW - used batteries KW - ecological safety KW - recovery KW - Zn(II) KW - Mn(II) KW - belt conveyor KW - prosumer KW - downhill transport of overburden KW - specific energy consumption KW - recuperation KW - energy recovery rate KW - air quality monitoring KW - SO2 KW - VOC KW - H2S KW - PM10 KW - PM2.5 KW - PM1.0 KW - outdoor air quality KW - air flow aerodynamics KW - street canyon KW - digestate KW - biogas plant KW - hydrothermal carbonisation KW - membrane processes KW - water recovery KW - thermal lag KW - fossil fuels KW - pyrolysis KW - TG KW - thermal analysis KW - power KW - powered roof support KW - hydraulic leg KW - bench testing KW - dynamic load KW - discrete event simulation KW - quarry KW - mine machine KW - cost of production KW - fire-side corrosion KW - boiler tube wastage KW - diagnostics KW - industrial-scale boilers KW - non-destructive inspection KW - pipe inspection KW - wall thickness measurement KW - stone waste KW - waste generation KW - waste recycling KW - industrial waste treatment KW - sustainable manufacturing KW - dimension natural stone processing KW - GHG emissions KW - stable isotopes KW - waste management KW - energy recovery KW - unburned carbon KW - fly ash KW - activated carbon KW - adsorption kinetics KW - statistical regression KW - sustainable mining KW - heating and energy processes KW - raw material sustainable-use fossil fuels KW - energy conversion and storage KW - air pollution KW - emission reduction methods KW - purification and removal techniques KW - acid leaching KW - battery recycling KW - Li-ion batteries KW - metal recovery KW - raw material sustainable use KW - sieving screen KW - inertial vibrator KW - dual-frequency KW - spectrum KW - FEM simulation KW - biomass ash KW - coal ash KW - sintering KW - mechanical test KW - pressure drop test KW - slagging KW - fouling KW - ion flotation KW - used batteries KW - ecological safety KW - recovery KW - Zn(II) KW - Mn(II) KW - belt conveyor KW - prosumer KW - downhill transport of overburden KW - specific energy consumption KW - recuperation KW - energy recovery rate KW - air quality monitoring KW - SO2 KW - VOC KW - H2S KW - PM10 KW - PM2.5 KW - PM1.0 KW - outdoor air quality KW - air flow aerodynamics KW - street canyon KW - digestate KW - biogas plant KW - hydrothermal carbonisation KW - membrane processes KW - water recovery KW - thermal lag KW - fossil fuels KW - pyrolysis KW - TG KW - thermal analysis KW - power KW - powered roof support KW - hydraulic leg KW - bench testing KW - dynamic load KW - discrete event simulation KW - quarry KW - mine machine KW - cost of production KW - fire-side corrosion KW - boiler tube wastage KW - diagnostics KW - industrial-scale boilers KW - non-destructive inspection KW - pipe inspection KW - wall thickness measurement KW - stone waste KW - waste generation KW - waste recycling KW - industrial waste treatment KW - sustainable manufacturing KW - dimension natural stone processing KW - GHG emissions KW - stable isotopes KW - waste management KW - energy recovery KW - unburned carbon KW - fly ash KW - activated carbon KW - adsorption kinetics KW - statistical regression KW - sustainable mining KW - heating and energy processes KW - raw material sustainable-use fossil fuels KW - energy conversion and storage KW - air pollution KW - emission reduction methods KW - purification and removal techniques UR - https://www.unicat.be/uniCat?func=search&query=sysid:145974111 AB - 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. ER -