Bøger af Mohammad Reza Rahimpour

Homogeneous Isomerization, Amination and Silicon Compounds Reactions, a volume in the Advances in Homogeneous Catalysis series, is separated into three parts to provide comprehensive coverage of isomerization, amination and silicon compounds reactions with homogeneous catalysts. The first part presents isomerization of functionalized and non-functionalized alkenes. Homogeneous amination and hydroamination reactions are investigated the second, while the final part covers homogeneous reactions of silicon compounds. The comprehensive coverage of the subject means this volume will be particularly useful to help bridge the gap between chemists and engineer's knowledge and use of homogeneous catalysis.

Homogeneous Polymerization and Oligomerization Reactions, a volume in the Advances in Homogeneous Catalysis series, covers polymerization and oligomerization reactions with homogeneous catalysts. In section one, homogeneous polymerization of alkenes, olefins, polycarbonates and Polystyrene are discussed, while the second section, presents in detail homogeneous oligomerization, cyclopolymerization, dimerization, and telomerization reactions Process reactor design, industrial applications, economic assessment and environmental challenges are discussed in depth making this volume of particular interest to academic researchers and industrialists.

The conventional generation of a substantial quantity of hydrogen from resources based on fossil fuels continues to play an essential role in the hydrogen economy. Hydrogen Production from Nonrenewable Resources offers a comprehensive overview and features 3 sections covering properties and characteristics of hydrogen, technologies for converting nonrenewable sources to hydrogen, and challenges in synthesis and production.- Details thermophysical characteristics and properties of hydrogen.- Covers conventional and novel industrial technologies for efficient production.- Explores environmental opportunities and challenges and health and safety regulations.- Provides techno-economic and lifecycle assessments with future outlooks.Part of the multi-volume Handbook of Hydrogen Production and Applications, this standalone book guides researchers and academics in chemical, environmental, energy, and related areas of engineering interested in development and implementation of hydrogen production technologies.

The purification of hydrogen is necessary to fulfill purity standards of a wide variety of prospective uses, and it is also a key concern regarding the efficient supply of hydrogen. Hydrogen Purification and Separation reviews various hydrogen separation methods as well as membranes used in hydrogen separation. It discusses absorption and adsorption methods as well as novel technologies like cryogenic methods and plasma-assisted technology and discusses related economic assessments and environmental challenges.- Introduces miscellaneous membrane-assisted processes for hydrogen separation.- Provides different physiochemical absorption methods for hydrogen purification.- Discusses application of sorbents and swing technologies in hydrogen purification.- Uniquely covers hydrogen separation using novel methods.- Includes economic assessments and environmental challenges of hydrogen purification in detail.Part of the multi-volume Handbook of Hydrogen Production and Applications, this standalone book guides researchers and academics in chemical, environmental, energy, and related areas of engineering interested in development and implementation of hydrogen production technologies.

This book provides readers with a comprehensive overview of the processes and technologies utilized for producing hydrogen from renewable sources. It discusses common methods like gasification, pyrolysis, and liquefaction, along with novel methods like water thermochemical splitting, biophotolysis, biological water gas shift reaction, and fermentation processing. The application of various renewable sources, including wind, solar, and geothermal energy, is covered in detail.- Introduces water splitting conversion processes for hydrogen production in detail.- Uniquely provides different pyrolysis, gasification, and liquefaction processes for hydrogen generation.- Covers different biomass and wastes sources for producing hydrogen.- Discusses biochemical methods for converting biomass to hydrogen.- Provides the application of renewable energy sources in hydrogen production.Part of the multi-volume Handbook of Hydrogen Production and Applications, this standalone book guides researchers and academics in chemical, environmental, energy, and related areas of engineering interested in development and implementation of hydrogen production technologies.

Homogeneous Hydrogenation and Metathesis Reactions, a volume in the Advances in Homogeneous Catalysis series, covers hydrogenation and metathesis reactions in two separate sections. The first section is devoted to homogeneous hydrogenation reactions and related processes, including hydrogenation of alkenes, esters, olefins, etc. In the second section, the metathesis reactions of olefins, alkenes, and alkynes are presented. In addition, the industrial application of homogeneous metathesis reactions is investigated.

Homogeneous Oxidation Reactions, a volume in the Advances Homogeneous in Catalysis series, covers oxidation and hydrogenation reactions in detail. Split into two sections, the first is devoted to various homogeneous oxidation processes, such as oxidation of olefins, phenols, and aromatic acids. The second presents homogeneous hydrogenation reactions and related processes, including hydrogenation of alkenes, esters, and olefins. Relevant reactor design, industrial case studies, economic analysis and environmental issues of both oxidation and hydrogenation homogeneous reactions are considered. This book will be of particular interest and benefit to catalysts users, manufacturers, and creators.

Homogeneous Catalysts Development, a volume in the Advances in Homogeneous Catalysis series, covers hydrogenation and metathesis reactions in two separate sections. The first section is devoted to homogeneous hydrogenation reactions and related processes, including hydrogenation of alkenes, esters, olefins, etc. In the second section, the metathesis reactions of olefins, alkenes, and alkynes are presented. In addition, the industrial application of homogeneous metathesis reactions is investigated.

Advances in Hydrotreating for Integrated Biofuel Production covers the recent advances in the upgrading of biomass-obtained products into liquid fuels (also known as biofuels) by hydrotreating processes. By including introductory information, the book covers in detail the identification of hydrotreating processes such as thermocatalytic reactions in the presence of heterogeneous catalysts and hydrogen. Required materials for the development of the process are investigated with consideration of the characteristics of biomass, bio-oil production, upgrading alternatives, hydrotreating alternatives, hydrotreating of different biomass-based materials, hydrodeoxygenation of separated bio-oil compounds, classification of the hydrotreating catalysts, life cycle assessment, and hydrogen production routes. Information regarding the further development of the process is collected to encourage further progress toward a scalable process for biofuel production and the development of a large-scale hydrotreating strategy.

Advances in Synthesis Gas: Methods, Technologies and Applications: Syngas Purification and Separation considers different common and novel processes for purification of produced syngas, such as absorption, adsorption, membrane, cryogenic distillation, particulate separation technologies in addition to thermal and oxidative processes for tar removal, in details. The role of various catalysts or materials in absorption, adsorption and membrane processes are discussed in separate chapters to address each in more details.

Advances in Synthesis Gas: Methods, Technologies and Applications: Syngas Process Modelling and Apparatus Simulation consists of numerical modelling and simulation of different processes and apparatus for producing syngas, purifying it as well as synthesizing different chemical materials or generating heat and energy from syngas. These apparatus and processes include, but not limited to, reforming, gasification, partial oxidation, swing technologies, membranes.