Nanotechnology for the Energy Markets (Master Report)

Published by: Cientifica Ltd.

Published: Feb. 1, 2007 - 189 Pages

Table of Contents

EXECUTIVE SUMMARY

MARKET FORECAST FOR NANOTECHNOLOGY APPLICATIONS IN THE ENERGY SECTOR

Cientifica Nanotechnology Model

Definitions of Nanotechnologies

Major Assumptions

The Nano-Energy Landscape

Energy Saving

Energy Storage

Energy Production

Overall Energy Markets By Application

INTRODUCTION

How to Use This Report

Objectives of the Report

World Energy Trends

Overview of the Interaction of the Energy Sector with Nanotechnologies

in the EU

Overview of the Interaction of the Energy Sector with Nanotechnologies

in the USA

Overview of the Interaction of the Energy Sector with Nanotechnologies

in China and India

Overview of the Interaction of the Energy Sector with Nanotechnologies

in Japan

Overview of the Interaction of the Energy Sector with Nanotechnologies

in Australia

Overview of the Interaction of the Energy Sector with Nanotechnologies

in the Rest of the World

Why Energy Needs Nanotechnologies

Market Demand Push

Technology Improvement

Environmental Issue

The Energy Sector

Common Energy Source Classifications

Renewable Energy Conversions

Energy Storage Technologies

Value Chain And Value-Added Points Of Nanotechnology In The Energy

Sector

Energy Sector Value Chain

Value-Added Points of Nanotechnology in the Energy Value Chain

Key Drivers of Nanotechnology Applications in the Energy Sector

Challenge of Nanotechnology Applications in the Energy Sector

Cost Issues

Safety Issues

Commercialization Issues

Infrastructural Issues

Intellectual Property Issues

NANOTECHNOLOGY APPLICATIONS IN THE ENERGY SECTOR

Summary Of Nanotechnology Applications In The Energy Sector

Introduction

Nanotechnologies For Sustainability And Efficiency Of Fossil Fuels/Energy

Saving

Lighter and Stronger Materials

Thermal Management

Solid-State Lighting - More Efficient Lighting Point Sources

More Efficient Lighting For Large Areas

Efficient Combustion

Nanotechnologies for Energy Conversion / Production

Solar Photovoltaics (PV) - Solar Cells

Hydrogen Conversion

Waste Heat Recovery/Thermoelectricity

Solar Thermal Energy

Geothermal Energy

Biomass

Nanotechnologies for Energy Storage

Rechargeable Batteries

Hydrogen Storage - Fuel Cells

Supercapacitors

APPLICATIONS OF NANOTECHNOLOGY IN ENERGY FOR TRANSPORTATION AND AUTOMOTIVE SECTOR

Summary of Applications of Nanotechnology in Energy for the Transportation

and Automotive Sector

Current Applications of Nanotechnology in Energy for the Transportation

and Automotive Sector

Hybrid Electric Cars Powered by Nano-Engineered Batteries

Nanocomposite Materials for Higher Performance Vehicle Parts

Paint and Clothing that can Generate Electricity

Current Adopters of Nanotechnology in Transportation and Automotive

Sector

Products and Markets

Costs and Benefits

Future Projection of Nanotechnology in Energy for Transportation and

Automotive Sector

Drivers and Barriers

Market Forecast

Roadmap

The Major Providers of Nanotechnology in Energy for Transportation and

Automotive Sector

APPLICATIONS OF NANOTECHNOLOGY IN ENERGY FOR PORTABLE ELECTRONICS SECTOR

Summary of Applications of Nanotechnology in Energy for the Portable

Electronics Sector

Current Applications of Nanotechnology in Energy for the Portable

Electronics Sector

Better Li-Ion Batteries for Portable Devices

Supercapacitor for Fast Recharging Portable Devices

Efficiency -Improved Displays

Nanocomposite Materials for Lighter and Stronger Devices

High Performance Renewable Power Generation

Electronic Clothing and Powering Systems

Current Adopters of Nanotechnology in Portable Electronics Sector

Products and Markets

Costs and Benefits

Future Projection of Nanotechnology in Energy for Portable Electronics

Sector

Drivers and Barriers

Market Forecast

Roadmap

The Major Providers of Nanotechnology in Energy for Portable Electronics

Sector

APPLICATIONS OF NANOTECHNOLOGY IN ENERGY FOR RESIDENTIAL AND COMMERCIAL USE

Summary of Applications of Nanotechnology in Energy for Residential and

Commercial Use

Current Applications of Nanotechnology in Energy for Residential and

Commercial Use

Nanomaterials for Power-Efficient and Environmentally-Friendly

Buildings

Nanosensors for Smart Houses

Energy-Efficient Lightening Sources

Current Adopters of Nanotechnology in Energy for Residential and

Commercial Use

Products and Markets

Costs and Benefits

Future Projection of Nanotechnology in Energy for Residential and

Commercial Use

Drivers and Barriers

Market Forecast

Roadmap

The Major Providers of Nanotechnology in Energy for Residential and

Commercial Use

FINDINGS

APPENDIX I: NANOTECHNOLOGY AND ENERGY APPLICATIONS MATRIX

APPENDIX II: PROMISING NANOMATERIALS APPLICATIONS IN THE ENERGY SECTOR

APPENDIX III: NANOTECHNOLOGY PROVIDERS IN THE ENERGY SECTOR

Tables and Graphs

Exhibit 1: Sustained Growth of Energy Demand 1860-2060

Exhibit 2: Delivered Energy Consumption by Sector 1980-2030

Exhibit 3: Nanotechnology Energy Markets

Exhibit 4: Market Breakdown 2007

Exhibit 5: Market Breakdown 2014

Exhibit 6: Nanotechnologies for Energy Saving Applications Market

Exhibit 7: Nanomaterials In Insulation

Exhibit 8: Nanomaterials as a Percentage of the Total Insulation Market

Exhibit 9: Total Market for Solid State Lighting Using Nanomaterials

Exhibit 10: Global Nano Fuel Borne Catalyst Market

Exhibit 11: Value of CNT Composites Used For Weight Reduction In Transport

and Automotive Applications

Exhibit 12: Nanotechnologies For Energy Storage

Exhibit 13: Nanotechnology For Energy Production Market

Exhibit 14: 2007 Market by Application

Exhibit 15: 2014 Market by Application

Exhibit 16: Market Evolution by Application

Exhibit 17: Relevant Product Development Stages for the Different Company

Types

Exhibit 18: Share of Energy Sources in Total Energy Consumptions in European

Commission Countries 1990-2030 (in percentage)

Exhibit 19: Gross Inland Energy Consumption by Country 1990-2003

Exhibit 20: Global Total Primary Energy Demand 1971-2031(Mtoe)

Exhibit 21: World Primary Energy Consumption in 2004 (Quadrillion Btu)

Exhibit 22: Renewable Power Capacities in 2004 (GW) for Developing

Countries, EU, and Top Five Individual Countries (excluding large hydropower)

Exhibit 23: The Top Ten Applications of Nanotechnology for Developing

Countries

Exhibit 24: Progress in PV Efficiencies

Exhibit 25: Hydrogen Conversion Technologies and Applications

Exhibit 26: Comparison of Energy/Power in Different Storage Technologies

Exhibit 27: Energy Value Chain

Exhibit 28: Value-Added Points of Nanotechnology in the Energy Value Chain

Exhibit 29: Key Drivers of Nanotechnology Applications in the Energy Sector 57

Exhibit 30: Drivers and Barriers of Nanotechnology Applications in Energy

Sectors

Exhibit 31: Additional Cost Caused by Adding Nanomaterials in Energy for

Transportation and Automotive Sector

Exhibit 32: Drivers and Barriers of Nanotechnology Applications in Energy for

Transportation and Automotive Sector

Exhibit 33: OECD and Non-OECD Transportation Sector Delivered Energy

Consumption, 2003-2030

Exhibit 34: Energy Consumption in Transportation and Automotive Sector by

Source (quadrillion Btu, unless otherwise noted)

Exhibit 35: Transport Market

Exhibit 36: The Roadmap for Future Applications of Nanotechnology in Energy

for Transportation and Automotives Sector

Exhibit 37: Comparison of Battery, Fuel Cell, Capacitor and Supercapacitor

Exhibit 38: Additional Cost Caused by Adding Nanomaterials in Energy for

Portable Electronics Sector

Exhibit 39: Drivers and Barriers of Nanotechnology Applications In Energy for

Portable Electronics Sector

Exhibit 40: Portable Electronics Market

Exhibit 41: The Roadmap for Future Applications of Nanotechnology in Energy

for Portable Electronics Sector

Exhibit 42: Potential Applications of Nanotechnology in Energy for Residential

and commercial Use

Exhibit 43: Additional Cost Caused by Adding Nanomaterials in Energy for

Residential and Commercial Use

Exhibit 44: Drivers and Barriers of Nanotechnology Applications In Energy for

Residential and Commercial Use

Exhibit 45: Energy Consumption in Residential and Commercial Sector by

Source (quadrillion Btu, unless otherwise noted)

Exhibit 46: Residential Market

Exhibit 47: The Roadmap for Future Applications of Nanotechnology in Energy

for Residential and Commercial Uses

Abstract

• The most immediate opportunities lie in saving energy through the use of advanced materials and this is already a $1.6 billion dollar market, predicted to rise to$ 51 billion by 2014
• Despite advances in battery technology, hydrogen storage and fuel cells, energy saving technologies will exhibit faster growth, accounting for 75% of the market for nanotechnologies in 2014, up from 62% in 2007
• The adoption of energy generation technologies is highly sensitive to geopolitical factors and consumer acceptance, while energy saving technologies exhibit no such problems
• Solid state lighting, nanocomposite materials, aerogels and fuel borne catalysts will have the greatest impact between now and 2014
• Compound annual growth rates are 64% for energy saving technologies and 90% for energy generation, while energy storage applications show a comparatively lowly 30%.
• Applications in transportation will increase to $50 billion by 2014 with a CAGR of 72%

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