Sustainability of Fossil Fuels
Strizhak, Pavel A.
Sustainability of Fossil Fuels - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (284 p.)
Open Access
The energy and fuel industries represent an extensive field for the development and implementation of solutions aimed at improving the technological, environmental, and economic performance of technological cycles. In recent years, the issues of ecology and energy security have become especially important. Energy is firmly connected with all spheres of human economic life but, unfortunately, it also has an extremely negative (often fatal) effect on the environment and public health. Depletion of energy resources, the complexity of their extraction, and transportation are also problems of a global scale. Therefore, it is especially important nowadays to try to take care of nature and think about the resources that are necessary for future generations. For scientific teams in different countries, the development of sustainable and safe technologies for the use of fuels in the energy sector will be a challenge in the coming decades
Creative Commons
English
books978-3-03921-220-0 9783039212200 9783039212194
10.3390/books978-3-03921-220-0 doi
soaring of fuel droplets gas robbing shale gas syngas municipal solid waste convection–diffusion equation skeletal mechanism anionic surfactant flow behavior enhanced oil recovery coal processing waste coal consumption forecasting energy production heating disintegration hydrate dissociation linear drift effect injection mode aerosol gas lift rate oil-controlling mode decorated polyacrylamide supercritical CO2 hydraulic fracturing closed-form analytical solution combustion forest fuels oil refining waste methane coal two-component droplet pore structure evaporation droplet holder material coal-water slurry gas lift optimization Bunsen burner improved gravitational search algorithm slurry fuel physical properties trajectories of fuel droplets mechanism reduction Mohr–Coulomb theory enhanced recovery structure evolution combustion chamber fractured reservoir simulation Qikou Sag tectonic coal explosive breakup split factor matrix-fracture transmissibility waste management ignition genetic mechanism Riedel shear biomass laser pulse dual string completion embedded discrete fracture model covert fault zone waste-derived fuel fuel activation transport of tracers grey relational analysis displacement mechanism support vector machine methane hydrate PTV method methane desorption composite fuel water retention in shale gas lift combustion mechanism anthropogenic emission concentration
Sustainability of Fossil Fuels - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (284 p.)
Open Access
The energy and fuel industries represent an extensive field for the development and implementation of solutions aimed at improving the technological, environmental, and economic performance of technological cycles. In recent years, the issues of ecology and energy security have become especially important. Energy is firmly connected with all spheres of human economic life but, unfortunately, it also has an extremely negative (often fatal) effect on the environment and public health. Depletion of energy resources, the complexity of their extraction, and transportation are also problems of a global scale. Therefore, it is especially important nowadays to try to take care of nature and think about the resources that are necessary for future generations. For scientific teams in different countries, the development of sustainable and safe technologies for the use of fuels in the energy sector will be a challenge in the coming decades
Creative Commons
English
books978-3-03921-220-0 9783039212200 9783039212194
10.3390/books978-3-03921-220-0 doi
soaring of fuel droplets gas robbing shale gas syngas municipal solid waste convection–diffusion equation skeletal mechanism anionic surfactant flow behavior enhanced oil recovery coal processing waste coal consumption forecasting energy production heating disintegration hydrate dissociation linear drift effect injection mode aerosol gas lift rate oil-controlling mode decorated polyacrylamide supercritical CO2 hydraulic fracturing closed-form analytical solution combustion forest fuels oil refining waste methane coal two-component droplet pore structure evaporation droplet holder material coal-water slurry gas lift optimization Bunsen burner improved gravitational search algorithm slurry fuel physical properties trajectories of fuel droplets mechanism reduction Mohr–Coulomb theory enhanced recovery structure evolution combustion chamber fractured reservoir simulation Qikou Sag tectonic coal explosive breakup split factor matrix-fracture transmissibility waste management ignition genetic mechanism Riedel shear biomass laser pulse dual string completion embedded discrete fracture model covert fault zone waste-derived fuel fuel activation transport of tracers grey relational analysis displacement mechanism support vector machine methane hydrate PTV method methane desorption composite fuel water retention in shale gas lift combustion mechanism anthropogenic emission concentration