Where to find waste energy?
When you looking for waste energy, you must consider not only the quality but also price and customer reviews. But among hundreds of product with different price range, choosing suitable waste energy is not an easy task. In this post, we show you how to find the right waste energy along with our top-rated reviews. Please check out our suggestions to find the best waste energy for you.
When you looking for waste energy, you must consider not only the quality but also price and customer reviews. But among hundreds of product with different price range, choosing suitable waste energy is not an easy task. In this post, we show you how to find the right waste energy along with our top-rated reviews. Please check out our suggestions to find the best waste energy for you.
Best waste energy
1. Handbook of Process Integration (PI): Minimisation of Energy and Water Use, Waste and Emissions (Woodhead Publishing Series in Energy)
Description
Since its first development in the 1970s, Process Integration (PI) has become an important methodology in achieving more energy efficient processes. This pioneering handbook brings together the leading scientists and researchers currently contributing to PI development, pooling their expertise and specialist knowledge to provide readers with a comprehensive and up-to-date guide to the latest PI research and applications.After an introduction to the principles of PI, the book reviews a wide range of process design and integration topics ranging from heat and utility systems to water, recycling, waste and hydrogen systems. The book considers Heat Integration, Mass Integration and Extended PI as well as a series of applications and case studies. Chapters address not just operating and capital costs but also equipment design and operability issues, through to buildings and supply chains.
With its distinguished editor and international team of expert contributors, Handbook of Process Integration (PI) is a standard reference work for managers and researchers in all energy-intensive industries, as well as academics with an interest in them, including those designing and managing oil refineries, petrochemical and power plants, as well as paper/pulp, steel, waste, food and drink processors.
- This pioneering handbook provides a comprehensive and up-to-date guide to the latest process integration research and applications
- Reviews a wide range of process design and integration topics ranging from heat and utility systems to water, recycling, waste and hydrogen systems
- Chapters also address equipment design and operability issues, through to buildings and supply chains
2. Gasification of Waste Materials: Technologies for Generating Energy, Gas, and Chemicals from Municipal Solid Waste, Biomass, Nonrecycled Plastics, Sludges, and Wet Solid Wastes
Description
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
3. Municipal Solid Waste to Energy Conversion Processes: Economic, Technical, and Renewable Comparisons
Description
A technical and economic review of emerging waste disposaltechnologiesIntended for a wide audience ranging from engineers andacademics to decision-makers in both the public and privatesectors, Municipal Solid Waste to Energy Conversion Processes:Economic, Technical, and Renewable Comparisons reviews thecurrent state of the solid waste disposal industry. It details howthe proven plasma gasification technology can be used to manageMunicipal Solid Waste (MSW) and to generate energy and revenues forlocal communities in an environmentally safe manner withessentially no wastes.
Beginning with an introduction to pyrolysis/gasification andcombustion technologies, the book provides many case studies onvarious waste-to-energy (WTE) technologies and creates an economicand technical baseline from which all current and emerging WTEtechnologies could be compared and evaluated.
Topics include:
Pyrolysis/gasification technology, the most suitable andeconomically viable approach for the management of wastes
Combustion technology
Other renewable energy resources including wind andhydroelectric energy
Plasma economics
Cash flows as a revenue source for waste solids-to-energymanagement
Plant operations, with an independent case study of Eco-Valleyplant in Utashinai, Japan
Extensive case studies of garbage to liquid fuels, wastes toelectricity, and wastes to power ethanol plants illustrate howcurrently generated MSW and past wastes in landfills can beprocessed with proven plasma gasification technology to eliminateair and water pollution from landfills.
4. Waste-to-Energy Technologies and Global Applications
Description
Through Waste-to-Energy (WtE) technology, plants use waste as a renewable fuel to co-produce electricity, heating, and cooling for urban utilization. This professional book presents the latest developments in WtE technologies and their global applications. The first part of the book covers thermal treatment technologies, including combustion, novel gasification, plasma gasification, and pyrolysis. It then examines 35 real-world WtE case studies from around the world, analyzing technical information behind planning, execution, goals, and national strategies. Results through the years show the benefits of the technology through the life cycle of the products. The book also examines financial and environmental aspects.
5. Alternative Energy Secrets: Practical Solutions for Personal Energy Problems
Description
The eighth book in Stephen Chastain's DIY series, Alternative Energy Secrets is a companion text to his title Generators and Inverters. Alternative Energy Secrets focuses on overlooked fuels. Extensive information regarding waste oils and their inexpensive conversion to useful fuels. Plans for a super fast oil collector trailer that picks up 200 gallons in a few minutes and does not form water emulsion like a gear pump will. Describes oil cracking, blending, filtering, testing and construction of centrifuges to clean waste oils and make them suitable for use in home heating or as diesel fuel. Construction of waste oil burners, and heaters, tips on off-grid power generation and converting your car to diesel are included. Practical how to. Very unusual material. Nothing like it anywhere on the market. A must have for alternative energy users.6. Energy-Independence for Cities: Rethinking Waste & Energy & Transport
Description
If were going to save the worldfrom the ravages of climate change? We have to save our cities; we have to make them sustainable, in every meaning of that wordstarting, I would argue, with . . . Waste & Energy & Transportan interwoven and interlocking tapestry of issues, a matter of Getting Right with WET. That sounds like Hysterical Greenie Preaching? Well . . . stop reading right now; it only gets worse. Many countries may be somewhat indifferent to, or paralyzed in the face of, climate change, perhaps because they feel (and they may be right) that they cant afford to spend time and money on the issue. I dont think theres any country other than the US where a sizable portion of the population and a sufficient-to-block-action percentage of (pretty much exclusively Republican) politicians are sticking their fingers in their ears and chanting Nah, nah, nah, nah-nah! Cant hear you! as . . . the waters riseamong other catastrophes. What will or will not happen? In the next century? The next year? Tomorrow? Im not a climatologist; I dont know. But the accruing facts on the ground are something between disturbing and terrifying. When Texas has three straight years of 500-year climate events? That ought to not just garner attention but spark action. And here we wait. The role of Texas, however, is something of a double-edged sword. Think Texas: Think Oil. But thensurprise!Texas is also the greatest producer of wind energy in the US, by far. Second place goes to Iowa andGo Big or Go Home!Texas produces more than twice the wind energy that Iowa does. We have the technology. The technology is cost-competitiveparticularly if you drop federal subsidies for the hydrocarbon industries; a great deal of the work that needs to be done would be a phenomenal (naturally occurring and market-based) jobs program for many of the people who need it most. We need the will. And . . . were running out of time.7. Energy Conservation in Water and Wastewater Facilities - MOP 32 (WEF Manual of Practice)
Description
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality,authenticity, or access to any online entitlements included with the product.
The Definitive Guide to Energy Conservation in Water and Wastewater Treatment Plants
Covering both drinking water treatment as well as wastewater, this authoritative guide from the Water Environment Federation presents the latest strategies for improving energy efficiency in plant operations. Each chapter discusses principles and concepts of energy requirements, potential sources of inefficiency, and recommended energy conservation measures for specific equipment and processes.
Energy Conservation in Water and Wastewater Facilities covers:
- Energy efficiency
- Utility billing procedures and incentives
- Electric motors and transformers
- Pumps
- Variable controls
- Aeration systems
- Blowers
- Solids processes
- Energy management
- Electricity basics
- Estimates of electricity used in treatment facilities
8. Recycled Aggregate in Concrete: Use of Industrial, Construction and Demolition Waste (Green Energy and Technology)
Feature
Used Book in Good ConditionDescription
Concrete is the most used man-made material in the world since its invention. The widespread use of this material has led to continuous developments such as ultra-high strength concrete and self-compacting concrete. Recycled Aggregate in Concrete: Use of Industrial, Construction and Demolition Waste focuses on the recent development which the use of various types of recycled waste materials as aggregate in the production of various types of concrete.
By drawing together information and data from various fields and sources, Recycled Aggregate in Concrete: Use of Industrial, Construction and Demolition Waste provides full coverage of this subject. Divided into two parts, a compilation of varied literature data related to the use of various types of industrial waste as aggregates in concrete is followed by a discussion of the use of construction and demolition waste as aggregate in concrete. The properties of the aggregates and their effect on various concrete properties are presented, and the quantitative procedure to estimate the properties of concrete containing construction and demolition waste as aggregates is explained. Current codes and practices developed in various countries to use construction and demolition waste as aggregates in concrete and issues related to the sustainability of cement and concrete production are also discussed.
The comprehensive information presented in Recycled Aggregate in Concrete: Use of Industrial, Construction and Demolition Waste will be helpful to graduate students, researchers and concrete technologists. The collected data will also be an essential reference for practicing engineers who face problems concerning the use of these materials in concrete production.
9. Turn Waste Into Energy Home-biogas: How to Turn Food Waste Into Cooking Gas
Description
Turn Food Waste Into Energy Last night I cooked my family a delicious pasta dinner using biogas energy. This morning we all had eggs cooked on biogas. Im not sure whats for dinner tonight, but I know what will provide the energy for cooking: biogas. And not just any biogas its home biogas, produced in our suburban backyard, and Our Off Grid Ranch as part of my ongoing action research into sustainable energy practices. I Know Longer Use Electricity or Propane for our Cooking needs it all done with Homemade Bio-gas.10. Reuse of Materials and Byproducts in Construction: Waste Minimization and Recycling (Green Energy and Technology)
Description
The construction industry is the largest single waste producing industry in the UK. Ensuring a supply chain of recycled materials affords many potential gains, achieved through: reducing the material volume transported to already over-burdened landfill sites, possible cost reductions to the contractor/client when considering the landfill tax saved and the potential for lower cost material replacements, a reduction in the environmental impact of quarrying and the saving of depleting natural material resources.
Reuse of Materials and Byproducts in Construction: Waste Minimization and Recycling addresses use of waste and by products in the construction industry. An over view of new green design guides to encourage best practice will be examined and current legislation that channels on site practices, such as site waste management plans. Fundamental individual construction materials are discussed and the process of reforming by products and waste products into new construction materials is investigated, examining the material performance, energy required to convert waste into new products and viability of recycling. The main range of constructional materials will be examined.
Aimed at postgraduate students, lecturers and researchers in construction and civil engineering, the book will also be of interest to professional design practices.