Micro- and nano-energy grinding waste-materials (plastics wastes, fibrous materials and biomaterials) are showing great promise in various energetic applications, especially for the fast developing fields of renewable energy industry, sources/technology. The comminution for micro-, nanoenergy, as precise grinding processes of non-brittle materials: plastics, fibrous, and biomaterials (cereal straw, grain) and biowastes (in the 2010 year: more then 1.300 million tones of oil equivalent in the word) occur in different construction sets of mills and different ways of development and disintegrating according to the properties of the material before and after the process. With micro- and nanoparticles as the material for energy, the integration of grinding functions into energy technology is a very important challenge. The book concentrates on plastics, and biomaterials/wastes, grinding product as powder properties, their energy measurement and applications. These topics are explained starting from the interactions between individual particles up to the design of grinding systems. A wide range of problems are discussed - such as flow obstructions, segregation, and vibrations. The goal is to provide a deeper understanding of the precise grinding processes of non-brittle materials, and to show effectives design, technology and maintenance solutions. The book comprises theoretical and experimental analysis of energy systems effectiveness, various properties of grinders design and innovations, efficiency and effectiveness of grinding technical systems and environment, research methods and grinding preparation techniques, and some promising applications.
TABLE OF CONTENTS
1.0.Introduction
1.1.Lead-in
1.2.Technical efficiency
1.3.Micro process monitoring
1.4.Innovative concepts
2.0.Energy efficient acting systems
2.1.Concept of energy and effectiveness
2.2.Energy system analysis
2.3.Human potential
2.4.Technology potential,
2.5.Energy – material potential
2.6.Controlled and monitoring potential
2.7.Acting system
2.8.Lead-out
3.0.Innovation of special systems for energy
3.1.Functional system
3.2.Controlled system
3.3.Information system
3.4.Logistic system
3.5.Applications in polymer materials grinding
3.6.Applications in biomaterials grinding
3.7.Applications in fibrous materials grinding
4.0.Monitoring of energy a grinding impact system
4.1.Basics of corn micro- and nano-grinding in motion
4.2.Energy conversion systems (conventional energy)
4.3.Energetic properties of the grinding surfaces
4.4.The surface energy and the resistance to grinding
4.5.Energy phenomenon in the sphere of grinding contact
4.6.Liquid waste grinding
4.7.General model of micro- and nano-grinding
5.0.Innovative comminution technology
5.1.New precise grinders design
5.2.Mechanics of precise grinding
5.3.Topgran, grinder innovation algorithm
5.4.Nano comminution process of biomaterials for energy
5.5.Nanotechnology of fibrous materials
5.6.Grinding of the breakable wastes
6.0.Optimization and sustainable development
6.1.New and renewable energy sources and technologies
6.2.Emerging, recycling energy technologies
6.3.Energy processors system optimization
6.4.Modern constructions solutions
6.5.System simulation
6.6.Innovation of energy grinding machinery design
6.7.Toxicity and safety of nanotechnology waste products
6.8.Special technologies in micro- and nano-particles
Flizikowski: Micro- and Nano- Energy Grinding
Micro- and Nano- Energy Grinding
by Jozef Flizikowski (Editor)
March 2011
List price: $149.00
Language:English
Pages:301, hard cover
Publisher:Pan Stanford Pub
(ISBN 9814303534 / 9789814303538)
Micro- and nano-energy grinding waste-materials (plastics wastes, fibrous materials and biomaterials) are showing great promise in various energetic applications, especially for the fast developing fields of renewable energy industry, sources/technology. The comminution for micro-, nanoenergy, as precise grinding processes of non-brittle materials: plastics, fibrous, and biomaterials (cereal straw, grain) and biowastes (in the 2010 year: more then 1.300 million tones of oil equivalent in the word) occur in different construction sets of mills and different ways of development and disintegrating according to the properties of the material before and after the process. With micro- and nanoparticles as the material for energy, the integration of grinding functions into energy technology is a very important challenge. The book concentrates on plastics, and biomaterials/wastes, grinding product as powder properties, their energy measurement and applications. These topics are explained starting from the interactions between individual particles up to the design of grinding systems. A wide range of problems are discussed - such as flow obstructions, segregation, and vibrations. The goal is to provide a deeper understanding of the precise grinding processes of non-brittle materials, and to show effectives design, technology and maintenance solutions. The book comprises theoretical and experimental analysis of energy systems effectiveness, various properties of grinders design and innovations, efficiency and effectiveness of grinding technical systems and environment, research methods and grinding preparation techniques, and some promising applications.
TABLE OF CONTENTS
1.0.Introduction
1.1.Lead-in
1.2.Technical efficiency
1.3.Micro process monitoring
1.4.Innovative concepts
2.0.Energy efficient acting systems
2.1.Concept of energy and effectiveness
2.2.Energy system analysis
2.3.Human potential
2.4.Technology potential,
2.5.Energy – material potential
2.6.Controlled and monitoring potential
2.7.Acting system
2.8.Lead-out
3.0.Innovation of special systems for energy
3.1.Functional system
3.2.Controlled system
3.3.Information system
3.4.Logistic system
3.5.Applications in polymer materials grinding
3.6.Applications in biomaterials grinding
3.7.Applications in fibrous materials grinding
4.0.Monitoring of energy a grinding impact system
4.1.Basics of corn micro- and nano-grinding in motion
4.2.Energy conversion systems (conventional energy)
4.3.Energetic properties of the grinding surfaces
4.4.The surface energy and the resistance to grinding
4.5.Energy phenomenon in the sphere of grinding contact
4.6.Liquid waste grinding
4.7.General model of micro- and nano-grinding
5.0.Innovative comminution technology
5.1.New precise grinders design
5.2.Mechanics of precise grinding
5.3.Topgran, grinder innovation algorithm
5.4.Nano comminution process of biomaterials for energy
5.5.Nanotechnology of fibrous materials
5.6.Grinding of the breakable wastes
6.0.Optimization and sustainable development
6.1.New and renewable energy sources and technologies
6.2.Emerging, recycling energy technologies
6.3.Energy processors system optimization
6.4.Modern constructions solutions
6.5.System simulation
6.6.Innovation of energy grinding machinery design
6.7.Toxicity and safety of nanotechnology waste products
6.8.Special technologies in micro- and nano-particles
7.0.Energy forecasting
7.1.Introduction
7.2.Goods for future
7.3.Resources for the secure life
7.4.Conclusion
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