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

Advances in Synthesis Gas: Methods, Technologies and Applications: Syngas Production and Preparation is a collection of various chapters concerning many aspects of syngas production technologies, including common methods like gasification, steam/dry/autothermal reforming, membrane technology, etc., along with novel methods like plasma technology, micro-reactors, electrolysis processes as well as photocatalytic systems. In addition, different sources for producing syngas, including oil, crude oil, heavy oil, microalgae, black liquor, tar and bitumen, as well as municipal, agricultural, food, plastic, wood and cardboard wastes are described in detail.

Advances in Synthesis Gas: Methods, Technologies and Applications: Syngas Products and Usage considers the applications and usages of syngas for producing different chemical materials such as hydrogen, methanol, ethanol, methane, ammonia, and more. In addition, power generation in fuel cells, or in combination with heat from syngas, as well as iron reduction with economic and environmental challenges for syngas utilization are described in detail.

Advances in Synthesis Gas: Methods, Technologies and Applications: Syngas Process Modelling and Apparatus Simulation consists of numerical modeling 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 are not limited to, reforming, gasification, partial oxidation, swing technologies and membranes.

Progresses in Ammonia: Science, Technology and Membranes: Production, Recovery, Purification and Storage is a collection of various chapters concerning the aspects of Ammonia synthesis (Haber-Bosch process, Electrochemical synthesis, Thermal coupling, etc.), production (Photocatalytic from amino acid-based biomass, Small-scale renewable-powered, etc.), Recovery (from wastewater and radioactive wastewater, etc.), storage and transportation (handling, shipping), and also others such as Ammonia detection and measurement, Ammonia: emission, atmospheric transport and deposition, Ammonia absorption into alkaline earth metal halide mixtures, and Ammonia and conventional engine fuels.

Progresses in Ammonia: Science, Technology and Membranes: Production and Separation covers the production and separation of ammonia. The book includes various kind of membranes (such as composite and membrane based systems, ceramic membrane cells, oxygen conducting membrane), membrane systems (such as membrane reactors, membrane distillation, immobilized cyanobacteria in membranes, using hydrophobic membranes, fuel cell technology, electrode membrane, etc.).

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 2 titled Natural Gas Sweetening introduces in detail different natural gas sweetening methods. The book covers absorption with different solvents such as alkalis, amin blends, ionic liquids, etc. which is one of the important sweetening techniques, as well as natural gas sweetening with adsorption-based technologies utilizing various materials including zeolites, carbonaceous sorbents, metal oxides, etc. Is also discusses membrane-based processes with various types (such as ionic liquid, polymeric, MOF mixed matrix, dense metal membranes) and includes novel technologies for sweetening natural gas by using plasma and supersonic separators.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 3: Natural Gas Hydrates introduces different fundamental aspects of natural gas hydrates with related environmental challenges and economic assessment. The book describes in detail hydrate structures, physio-chemical properties and thermodynamics as well as hydrate growth theories and its dissociation methods. It also covers natural gas hydrates formation in pipelines, as one of the important challenges, accompanied with prevention techniques and discusses natural gas hydrates discovery and extraction from permafrost and oceans.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 4 titled Natural Gas Dehydration introduces in detail different natural gas dehydration methods. The book covers absorption with different solvents such as glycols, ionic liquids, and DES which is one of the important dehydration techniques, as well as natural gas dehydration with adsorption-based technologies utilizing various materials including zeolites, carbonaceous sorbents, metal oxides, etc. It discusses in detail membrane-based processes with various types (such as hollow-fiber, polymeric, zeolite membranes) and includes novel technologies for sweetening natural gas by using direct cooling and compression, supersonic technology and micro-reactors.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 5 titled Natural Gas Impurities and Condensates Removal comprehensively discusses the characteristics and properties of natural gas condensates and dehydrated non-acidic impurities. The book describes related environmental challenges, removal standards, policies and regulations as well as economic assessment. It covers particulates (such as aerosols, arsenic, etc.) and condensates removal techniques from natural gas as well as mercury, nitrogen and helium removal from natural gas by absorption, adsorption and membrane-based processes.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 6 titled Natural Gas Transportation and Storage is separated into three sections. The first section discusses different natural gas transportation technologies (such as LNG, CNG, ANG, GTS, etc.). The second section introduces related apparatus for natural gas transportation and storage, including measurement systems, compressors, pumps, etc.as well as pipelines and controlling equipment. The last section explains challenges of natural gas transmission including inhibition of pipeline corrosion, cracking and wax deposition accompanied with pipeline cleaning challenges.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention Volume 7 titled Natural Gas Products and Uses comprehensively discusses natural gas conversion and applications for producing high-value chemicals and energy which are accompanied with related environmental challenges and economic analysis. The book covers various methods for producing valuable materials such as synthesis and fuel gases, alkanes, aromatics, sulphurs, etc. and introduces power and electricity generation as well as heat production from natural gas and their applications on future energy systems.

In the recent decades, efficiency enhancement of refineries and chemical plants has been become a focus of research and development groups. Use of nanofluids in absorption, regeneration, liquid-liquid extraction and membrane processes can lead to mass transfer and heat transfer enhancement in processes which results in an increased efficiency in all these processes. Nanofluids and Mass Transfer introduces the role of nanofluids in improving mass transfer phenomena and expressing their characteristics and properties. The book also covers the theory and modelling procedures in details and finally illustrates various applications of Nanofluids in mass transfer enhancement in various processes such as absorption, regeneration, liquid-liquid extraction and membrane processes and how can nanofluids increase mass transfer in processes.

Progresses in Ammonia: science, technology and membranes-Applications and use coversvarious ammonia applicatins such as in sensors and devices, in dyes and cleaning, in cooling systems, in desalination, in anaerobic digestion, in terrestrial vegetation, in fabric, textile and leather products, in metals heat-treating, in acid deposition, in carbon dioxide capture, in the hydrogen production, storage and generation.

Since fossil fuels suffer from dangerous side effects for the environment and their resources are limited, bioenergy attracted many attentions in various aspects as an alternative solution. Therefore, increasing number of researches are conducted every year and the processes updated frequently to make them more economic and industrially beneficial. Advances in Bioenergy and Microfluidic Applications reviews recent developments in this field and covers various advanced bio-applications, which rarely are reviewed elsewhere. The chapters are started from converting biomass to valuable products and continues with applications of biomass in water-treatment, novel sorbents and membranes, refineries, microfluidic devices and etc. The book covers various routes for gaining bioenergy from biomass. Their composition, carbon contents, heat production capacities and other important factors are reviewed in details in different chapters. Then, the processes for upgrading them directly and indirectly (using metabolic engineering and ultrasonic devices) to various fuels are explained. Each process is reviewed both technically and economically and the product analysis is given. Besides, the effect of various catalysts on increasing selectivity and productivity are taken into account. Biofuels are compared with fossil fuels and challenges in the way of bioenergy production are explained. Moreover, advanced bio-applications in membranes, adsorption, waste water treatment, microfluidic devices and etc. are introduced. This book provides a good insight about such bioprocesses and microfluidics devices for researchers, students, professors and related departments and industries that care about energy resources and curious about recent advances in related methods and technologies. Despite other books which review biomass chemistry and conversion, the current book emphasize on the application of biomass in the mentioned areas. Therefore, one can gain a better and more comprehensive insight by reading the book.

Advances in Carbon Capture reviews major implementations of CO2 capture, including absorption, adsorption, permeation and biological techniques. For each approach, key benefits and drawbacks of separation methods and technologies, perspectives on CO2 reuse and conversion, and pathways for future CO2 capture research are explored in depth. The work presents a comprehensive comparison of capture technologies. In addition, the alternatives for CO2 separation from various feeds are investigated based on process economics, flexibility, industrial aspects, purification level and environmental viewpoints.

Current Trends and Future Developments on (Bio-) Membranes: Engineering with Membranes discusses various aspects of membrane engineering. This includes, but is not limited to, the role of membranes in food production, treatment and recovery, their applications in electrochemical processes and devices, in drug delivery and in ionic materials, such as salts, acids and bases, recovery. In addition, this book approaches the above topics in a different angle than the existing publications, i.e., reviews technical difficulties, environmental challenges and economic analysis. Membranes are one of the technologies which can affect various aspects of engineering dealing with feeds and products. Membranes demonstrate selective purifying properties, hence, membranes can help in the removal of various pollutants onsite and without the need of adding extra units and apparatuses. Besides that, membranes help reactions shift forward and make the whole process more efficient.

Crises in Oil, Gas and Petrochemical Industries: Loss Prevention and Disaster Management, Volume Two provides an overview of both natural and manmade disasters occurring in oil, gas and petrochemical industries and prepares special solutions based on their types. The book focuses on loss prevention and disaster management in petrochemical industries from different points-of-view. Sections review methods for making the apparatus safer and continue with discussions on the process of facing and managing disasters during the occurrence. Final sections cover loss and economic analysis after disasters and methods of reversibility are presented with case studies from around the world.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 1 titled Natural Gas Formation and Extraction introduces natural gas characteristics and thermo-physical properties. The book discusses various formation and synthesize techniques from non-renewable sources (coal, oil shale, etc.) and renewable sources (biomass, sewage, algae, etc.) of natural gas as well as its extraction techniques from different reservoirs. It also covers related environmental challenges of natural gas, economic assessment of its extraction and production technologies, health.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention Volume 8 titled Process Modelling and Simulation discusses various aspects of natural gas related processes from modelling and simulation point of view. This includes modelling of natural gas sweetening, dehydration and other impurities removal processes and apparatus as well as simulation of processes and apparatus dealt with producing chemicals and energy from natural gas.The book introduces modelling and simulation of natural gas hydrate related processes and covers modelling basics, numerical approaches and optimization techniques, which provides a deeper understanding of the subject.

Advanced Technologies in Wastewater Treatment: Oily Wastewaters focuses on characteristics and innovative treatment technologies of oily wastewater from various resources. Primary and physical treatment methods such as absorption, adsorption, followed by common techniques like coagulation and fluctuation are discussed in detail. Applications of other advanced methods for the treatment of oily wastewaters like utilization of membranes and stripping gases are covered as well. Finally, novel technologies applied in purification of oily wastewaters such as photocatalytic degradation and biological processes are reviewed and future outlooks and prospects are also illustrated.

Advances and Technology Development in Greenhouse Gases: Emission, Capture and Conversion is a comprehensive seven-volume set of books that discusses the composition and properties of greenhouse gases, and introduces different sources of greenhouse gases emission and the relation between greenhouse gases and global warming. The comprehensive and detailed presentation of common technologies as well as novel research related to all aspects of greenhouse gases makes this work an indispensable encyclopedic resource for researchers in academia and industry.Volume 7 titled Process Modelling and Simulation reviews process modelling and simulation. The book reviews modeling studies of GHGs emissions and surveys the details of carbon capture modelling with several well-developed processes such as absorbers, swing technologies, and microstructures. It addresses modelling of geological and ocean storage, and reviews simulation studies of the chemical conversion of carbon dioxide to any valuable materials. The book summarizes essential information required in the simulation and modelling of the processes which are beneficial in carbon capture, storage, or conversion.

Book description: Homogeneous Oxidation Reactions, a volume in the Advances 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 so this book will be of particular interest and benefit to catalysts users, manufacturers, and creators.

Progresses in Ammonia: Science, Technology and Membranes: Decomposition considers the membrane technology for improving ammonia decomposition. Various aspects are considered, like: the catalytic extraction of hydrogen from ammonia, the recovery of hydrogen from ammonia production processes, the hydrogen production system combined with a membrane reactor from ammonia, highly purified hydrogen production from ammonia for PEM fuel cell, the carbon dioxide capture by aqueous ammonia with membrane, and the Ammonia decomposition in auto-thermal microchannel reactors). Mathematical simulation using the CFD model to investigate the effect of Ammonia decomposition is also discussed.

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. Including introductory information, the book covers in detail the identification of hydrotreating processes such as thermo-catalytic 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 material, hydrodeoxygenation of separated bio-oil compounds, classification of the hydrotreating catalyst, life-cycle assessment and hydrogen production routes. Information to inform the further development of the process is collected together to encourage further progress toward a scalable process for biofuel production and the development of a large-scale hydrotreating strategy.