Gasification of Waste Materials

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  • Author : Simona Ciuta
  • Publisher : Academic Press
  • Pages : 162 pages
  • ISBN : 0128127171
  • Rating : /5 from reviews
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Download or Read online Gasification of Waste Materials full in PDF, ePub and kindle. this book written by Simona Ciuta and published by Academic Press which was released on 24 October 2017 with total page 162 pages. We cannot guarantee that Gasification of Waste Materials book is available in the library, click Get Book button and read full online book in your kindle, tablet, IPAD, PC or mobile whenever and wherever You Like. Gasification of Waste Materials: Technologies for Generating Energy, Gas and Chemicals from MSW, Biomass, Non-recycled Plastics, Sludges and Wet Solid Wastes explores the most recent gasification technologies developing worldwide to convert waste solids to energy and synthesis gas and chemical products. The authors examine the thermodynamic aspects, accepted reaction mechanisms and kinetic constraints of using municipal solid waste (MSW), biomass, non-recycled plastics (NRP), sludges and wet solid wastes as feedstock. They identify the distinctions between pyrolysis, gasification, plasma, hydrothermal gasification, and supercritical systems. A comprehensive summary of laboratory and demonstration activities is presented, as well as field scale systems that have been in operation using solid waste streams as input, highlighting their areas of disconnect and alignment. The book also provides a summary of information on emissions from the stack, comparing them with other thermal conversion systems using similar feedstock. It then goes on to assess the areas that must be improved to ensure gasification systems become as successful as combustion systems operating on waste streams, ranging from feedstock processing to gasifier output gas clean-up, downstream system requirements and corrosion. The economics and future projections for waste gasification systems are also discussed. For its consolidation of the current technical knowledge, this text is recommended for engineering researchers, graduate students, industry professionals, municipal engineers and decision makers when planning, designing and deploying waste to energy projects, especially those using MSW as feedstock. Provides field demonstrations of large scale systems, their results and the challenges that need to be overcome when developing commercial applications and possible solutions Presents the most recent technologies in lab and demonstration scale Examines the critical development needs and real life challenges for the deployment of waste to energy technologies Provides information on the economics and sustainability of these technologies, as well as their future perspectives

Gasification of Waste Materials

Gasification of Waste Materials
  • Author : Simona Ciuta,Demetra Tsiamis,Marco J. Castaldi
  • Publisher : Academic Press
  • Release : 24 October 2017
GET THIS BOOK Gasification of Waste Materials

Gasification of Waste Materials: Technologies for Generating Energy, Gas and Chemicals from MSW, Biomass, Non-recycled Plastics, Sludges and Wet Solid Wastes explores the most recent gasification technologies developing worldwide to convert waste solids to energy and synthesis gas and chemical products. The authors examine the thermodynamic aspects, accepted reaction mechanisms and kinetic constraints of using municipal solid waste (MSW), biomass, non-recycled plastics (NRP), sludges and wet solid wastes as feedstock. They identify the distinctions between pyrolysis, gasification, plasma, hydrothermal gasification,

Gasification of Waste Materials

Gasification of Waste Materials
  • Author : Simona Ciuta,Demetra Tsiamis,Marco J. Castaldi
  • Publisher : Unknown
  • Release : 24 October 2017
GET THIS BOOK Gasification of Waste Materials

Gasification of Waste Materials: Technologies for Generating Energy, Gas and Chemicals from MSW, Biomass, Non-recycled Plastics, Sludges and Wet Solid Wastes explores the most recent gasification technologies developing worldwide to convert waste solids to energy and synthesis gas and chemical products. The authors examine the thermodynamic aspects, accepted reaction mechanisms and kinetic constraints of using municipal solid waste (MSW), biomass, non-recycled plastics (NRP), sludges and wet solid wastes as feedstock. They identify the distinctions between pyrolysis, gasification, plasma, hydrothermal gasification,

Electricity and Heat Production from Organic Waste Materials

Electricity and Heat Production from Organic Waste Materials
  • Author : Marina Kusumawardhani
  • Publisher : LAP Lambert Academic Publishing
  • Release : 30 November 2022
GET THIS BOOK Electricity and Heat Production from Organic Waste Materials

One of the renewable energy technology developments that is worthy of consideration in tackling climate change is biomass gasification, which potentially yields more energy efficiency than biomass combustion. Its significance is especially obvious in developing countries where there is significant amount of biomass, whose wastes would otherwise contribute significantly to GHG if not treated. The gasification of biomass wastes to produce electricity (and heat) is also important considering lack of energy access especially in rural areas of these countries. This

Pyrolysis and Gasification of a Solid Recovered Fuel SRF and Its Model Materials

Pyrolysis and Gasification of a Solid Recovered Fuel  SRF  and Its Model Materials
  • Author : Oscar Sosa Sabogal
  • Publisher : Unknown
  • Release : 30 November 2022
GET THIS BOOK Pyrolysis and Gasification of a Solid Recovered Fuel SRF and Its Model Materials

Solid waste materials that cannot be reused or recycled are increasingly used to produce Solid Recovered Fuels (SRF). They can be transformed by thermochemical processes such as gasification, thus producing a synthesis gas that can be used in cogeneration (heat and electricity) or for the synthesis of liquid or gaseous fuels. SRF constitute a raw material of interest, that has been largely less studied than biomass in gasification. The objective of the thesis is to investigate the pyrolysis and gasification

Advances in Mechanical Engineering

Advances in Mechanical Engineering
  • Author : B. B. Biswal,Bikash Kumar Sarkar,P. Mahanta
  • Publisher : Springer Nature
  • Release : 16 January 2020
GET THIS BOOK Advances in Mechanical Engineering

This book comprises select proceedings of the International Conference on Recent Innovations and Developments in Mechanical Engineering (IC-RIDME 2018). The book contains peer reviewed articles covering thematic areas such as fluid mechanics, renewable energy, materials and manufacturing, thermal engineering, vibration and acoustics, experimental aerodynamics, turbo machinery, and robotics and mechatronics. Algorithms and methodologies of real-time problems are described in this book. The contents of this book will be useful for both academics and industry professionals.

Waste Materials in Construction

Waste Materials in Construction
  • Author : Th.G. Aalbers,J.J.J.M. Goumans,H.A. van der Sloot
  • Publisher : Elsevier
  • Release : 13 November 1991
GET THIS BOOK Waste Materials in Construction

Waste Materials in Construction contains papers from the first international conference on the environmental implications of construction with waste materials held in Maastricht in November, 1991. The three key themes of the conference are technical options for the application of waste materials in products for the construction industry, the resulting chemical and environmental aspects thereof, and legislation policies as they pertain to waste management. There has been a great deal of laboratory testing carried out in several countries on the impact

Integrated Gasification Combined Cycle IGCC Technologies

Integrated Gasification Combined Cycle  IGCC  Technologies
  • Author : Ting Wang,Gary J. Stiegel
  • Publisher : Woodhead Publishing
  • Release : 26 November 2016
GET THIS BOOK Integrated Gasification Combined Cycle IGCC Technologies

Integrated Gasification Combined Cycle (IGCC) Technologies discusses this innovative power generation technology that combines modern coal gasification technology with both gas turbine and steam turbine power generation, an important emerging technology which has the potential to significantly improve the efficiencies and emissions of coal power plants. The advantages of this technology over conventional pulverized coal power plants include fuel flexibility, greater efficiencies, and very low pollutant emissions. The book reviews the current status and future developments of key technologies involved

Membranes for Environmental Applications

Membranes for Environmental Applications
  • Author : Zhien Zhang,Wenxiang Zhang,Eric Lichtfouse
  • Publisher : Springer Nature
  • Release : 29 February 2020
GET THIS BOOK Membranes for Environmental Applications

This book introduces recent developments of membrane technologies applied to gas and water treatments, energy processes and environmental issues. Novel knowledge and mechanisms on membrane fabrication and usage in energy, chemical, and environmental engineering are detailed in 12 book chapters from France, UK, Spain, China, Nigeria, Iran and Pakistan. The information in this book will be useful for engineers, students, and experts in these fields.

Clean Energy from Waste

Clean Energy from Waste
  • Author : Massimiliano Materazzi
  • Publisher : Springer
  • Release : 12 November 2016
GET THIS BOOK Clean Energy from Waste

This book explores the use of recent advanced multiple stage conversion technologies. These applications combine conventional fluidised bed systems with new plasma technologies to efficiently generate different energy outputs from waste materials with minimum cleaning effort. Using a mix of modelling and experimental approaches, the author provides fundamental insights into how the key operating variables of the two-stage process may impact the final quality of syngas. This thesis serves as a useful reference guide on the modelling and design of

Syngas from Waste

Syngas from Waste
  • Author : Luis Puigjaner
  • Publisher : Springer Science & Business Media
  • Release : 15 July 2011
GET THIS BOOK Syngas from Waste

Syngas from Waste presents the most recent concepts, methods and techniques for the preliminary design of a promising emerging technology: production of clean syngas from waste materials. An in-depth account is given of the steps necessary to achieve the optimum design and up-to-date tools are presented to support the designer’s decision-making tasks: modelling, simulation and optimization. Numerous illustrations and tables are included to facilitate the reader’s understanding, as well as suggestions for further reading. The text is complemented

Gasification for Synthetic Fuel Production

Gasification for Synthetic Fuel Production
  • Author : R Luque,J Speight
  • Publisher : Elsevier
  • Release : 29 August 2014
GET THIS BOOK Gasification for Synthetic Fuel Production

Gasification involves the conversion of carbon sources without combustion to syngas, which can be used as a fuel itself or further processed to synthetic fuels. The technology provides a potentially more efficient means of energy generation than direct combustion. This book provides an overview of gasification science and engineering and the production of synthetic fuels by gasification from a variety of feedstocks. Part one introduces gasification, reviewing the scientific basis of the process and gasification engineering. Part two then addresses

Green Technology

Green Technology
  • Author : Dustin Mulvaney
  • Publisher : SAGE
  • Release : 28 June 2011
GET THIS BOOK Green Technology

Green Technology: An A-to-Z Guide explores the essential role of technology and its most recent developments toward a sustainable environment. Twofold in its definition, green technology includes the changing of existing technology toward energy conservation as well as the creation of new, clean technology aimed at utilizing renewable resources. With a primary focus on waste management, the volume presents more than 150 articles in A-to-Z format featuring such disciplines as nanoscience, biochemistry, information technology, and environmental engineering. Scholars and experts in