What Is Nanotechnology Energy?

Based on the challenges and risks faced by cutting-edge technologies, the solutions provided by nanotechnology in each link are listed in detail.

Nanotechnology and Energy

This book describes the application of nanotechnology in the energy field. Based on the opportunities, challenges, and risks of cutting-edge technology, it analyzes market needs and optional development directions. It involves the entire industry chain of energy supply, transformation, transportation, storage and use. It also details the solutions provided by nanotechnology in its various links. Explain the application of nanotechnology in ceramic films, solar cells, thermoelectric effects, energy storage materials and other fields, and comprehensively describe the impact of these applications on German energy consumption, energy resources, energy supply and energy industry, and look forward to 2030 Annual nanotechnology has the potential to save energy, improve energy efficiency and reduce emissions in the energy sector. This book is suitable for reference of energy-efficient and nano-industry related professional teachers and students, researchers and application engineers.
Contributor Introduction Foreword Chapter 1. Challenges Faced by the Ministry of Energy and the Future Role of Nanotechnology 1.1 German Energy Industry and Future Challenges 1.1.1 Population and Economic Development 1.1.2 Price Trends of Fossil Energy 1.1.3 Primary Energy Consumption 1.1 .4 Power generation 1.1.5 Final energy consumption 1.1.6 Energy production intensity 1.1.7 Emissions 1.2 Nanotechnology and energy references Chapter 2 Principles of nanotechnology 2.1 Definitions and classifications 2.2 Scientific and technological background 2.2.1 Nanomaterials 2.2. 2 Top-down and bottom-up strategies 2.2.3 References to tools and production processes 2.3 Innovation and potential economic value 2.3.1 Nanotechnology is in a cross-innovation field 2.3.2 The relationship between nanotechnology and the economy 2.3. 3 Nanotechnology companies in the value-added chain 2.4 Risk and security issues 2.4.1 Three stages of nanotechnology 2.4.2 Systematization of nanotechnology risks 2.4.3 Conclusion 2.5 Public awareness of nanotechnology: Challenges and recommendations 2.5.1 Introduction 2.5.2 Psychological, social and cultural factors of risk perception 2.5.3 Public perception of nanotechnology: international comparison 2.5.4 German-language penetration of nanotechnology 2.5.5 Energy industry Attitude 2.5.6 Necessary conditions for consumer communication 2.5.7 Conclusion: Recommendations for communication strategies and dialogue concepts Chapter 3 Application examples of nanotechnology in the energy sector 3.1 Aerosols: Application of porous fused gel solids in energy technology 3.1. 1 Synthesis and performance of aerosol 3.1.2 Performance and application 3.1.3 Problems encountered in the application of aerogels to energy-related fields 3.1.4 Conclusions 3.2 Energy resources and conversion 3.2.1 Dye solar cells 3.2.2 Nano thermoelectric Energy efficient concept?
3.2.3 Nanomechanical ceramic membranes for carbon collection and storage 3.3 Energy storage and distribution 3.3.1 Materials for energy storage 3.4 Energy use 3.4.1 Nanotechnology in the construction industry 3.4.2 Solar-guided movable windows 3.4.3 Production Energy efficiency potential of nanotechnology in the process Chapter 4 to 2030, analysis and assessment of the potential of nanotechnology's impact on the energy industry 4.1 Methodology 4.2 Environmental impact and energy demand of nanotechnology 4.2.1 Environmental relief potential of nanotechnology 4.2.2 Specific Evaluation of application background: Life cycle assessment 4.2.3 Evaluation of specific artificial nanoparticles 4.3 The potential of nanotechnology to improve energy efficiency and reduce emissions 4.3.1 Energy resources and conversion 4.3.2 Energy storage and distribution 4.3.3 Energy use 4.3. 4 Theoretical potential of nanotechnology 4.4 Schemes and sensitivity analysis of impact on nanotechnology 4.4.1 Energy resources and transformation 4.4.2 Energy storage and distribution 4.4.3 Energy use 4.5 Comprehensive classification of nanotechnology in the energy sector [1]

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