Global Energy Harvesting/ Regeneration Electric Vehicles Land, Water & Air 2015-2025
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Since the advent of electricity, coal and fossil fuel reserves have been the most widely used option for man to obtain the easily usable electric power. However, rampantly usage of these natural resources, which have had adverse repercussions on the environment, has now led to belated acknowledgement of the problem. Leading economies today are standing on the verge of an acute energy crisis as a consequence as the historical exploitation of fossil fuel and coal reserves. Depleting levels of fossil fuels have now emerged as a global concern. To counter the issue of energy shortage, the use of eco-friendly and renewable alternative energy sources is being promoted by governments all over the world. Clean and renewable sources of energy are present abundantly across the universe. They are found in the form of wind, solar, mechanical, kinetic, and electromagnetic energy. Energy harvesting market is the process which captures, accumulates, stores, and manages energy derived from these sources for domestic, commercial, and industrial use. The energy harvested from these renewable resources is mostly supplied to remote areas where conventional grids can be hard to extend. Browse the full Global Energy Harvesting Market report at http://www.mrrse.com/energyharvesting-market Electric Vehicle Industry Expected to Reach US$533billion by 2025 Electric vehicles use energy harvesting to recharge the traction battery and power up the prime traction. The prime traction battery inbuilt in electric vehicles exhibits the ability to control energy generated from multiple ambient sources, owing to which the smaller batteries installed in these vehicles can be recharged through various energy sources within the vehicle. According to a recently published report, the market for energy harvesting will greatly benefit from the robust development of the electric vehicle industry, which is expected to be valued at US$533billion by 2025. As the general populace and the industrial sector is beginning to realize the inherent environmental as well as financial benefits of harvested energy, its applications are gradually widening. There are a few vehicles in the market today which function completely on harvested energy. These include vehicles such as solar lake boats. There are other vehicles such as cars and buses that recycle the energy obtained from excess kinetic energy with the help of regenerative brakes and/or regenerative shock absorbers. Harvesting Energy Will Reduce the Cost of Vehicles Apart from its ability to enhance the energy efficiency of a vehicle, harvested energy also helps reduce elements such as the weight and cost of a vehicle, which has had a positive impact on the
energy harvesting market. When a vehicle runs on harvested energy, it can easily do away with wiring harnesses. This leads to a simpler design and in turn a lighter curb weight, with no compromise in the vehicle’s performance. Using harvested energy in automobiles offers superior design and flexibility, which has significantly propelled the energy harvesting market. Industry experts suggest that the future of the car industry has a leading role to play in the future development of the global energy harvesting market. Leading players in the industry are likely to be the early adopters of this technology. Companies like EvFuture, Audi, Toyota, and SunPods are the prominent participants of the energy harvesting market. Table of Contents 1. EXECUTIVE SUMMARY AND CONCLUSIONS 1.1. What is energy harvesting? 1.2. Choices of harvesting 1.3. Opportunities for energy harvesting in cars 1.4. Market size of EV energy harvesting 2014-2025 1.5. Largest sectors 1.6. Regenerative braking 1.7. Large UK Government grants for KERS harvesting 1.8. Energy harvesting for racing cars shows the way 2. INTRODUCTION 2.1. Energy harvesting 2.1.1. Textron Bell helicopter sensing 2.1.2. Train brakes 2.1.3. MEMS 2.2. Electric vehicle 2.3. Needs 2.3.1. Range and cost 2.3.2. Hybrid vs pure electric 2.3.3. Biomimetics 2.4. Options and examples 2.4.1. ETH, QinetiQ solar plane 2.4.2. Amerigon thermoelectrics for cars, etc 2.4.3. Military land vehicles 2.4.4. NASA on Mars- planetary exploration vehicles 2.5. Bluecar 2.6. Nissan Capacitor Hybrid truck, forklift 2.7. Toyota Prius 2.8. Multi-mode harvesting 2.8.1. Alongside 2.8.2. Smart skin 2.8.3. EH in tire pressure monitoring 2.8.4. Issues with TPMSs using batteries
2.8.5. Energy harvesters for TPMS 2.9. Microhybrids Send An Enquiry : http://www.mrrse.com/enquiry/115 3. TECHNOLOGY TRENDS 3.1. Photovoltaic 3.1.1. Flexible, conformal 3.1.2. Technological options 3.1.3. Principles of operation 3.1.4. Options for flexible PV 3.1.5. Many types of photovoltaics needed for harvesting 3.2. Limits of cSi and aSi technologies 3.3. Limits of CdTe 3.4. GaAs-Ge multilayers 3.5. DSSC 3.6. CIGS 3.7. Organic 3.8. Nanosilicon ink 3.9. Nantenna - diode PV 3.9.1. Nanowire solar cells 3.9.2. UV, visible, IR 3.10. Technology trends - electrodynamic 3.11. Vibration harvesting 3.12. Movement harvesting options 3.12.1. Piezoelectric - conventional, ZnO and polymer 3.12.2. Electrostatic 3.12.3. Magnetostrictive 3.12.4. Energy harvesting electronics 3.13. Electroactive polymers 3.14. Electrodynamic 3.14.1. Generation of electricity 3.14.2. Regenerative braking 3.14.3. Energy harvesting shock absorbers 3.14.4. Regenerative soaring 3.15. Thermoelectrics 3.15.1. Great increase in interest in 2014 3.15.2. Thermoelectric construction 3.15.3. Advantages of thermoelectrics 3.15.4. Automotive Thermoelectric Generation (ATEG) 3.15.5. Heat pumps 3.15.6. Thermoelectric Energy Harvesting in Japan 3.15.7. Ford, Volvo, Renault 3.16. Flywheels 3.17. Electromagnetic field harnessing
3.18. Microbial and other fuel cells 3.19. Other harvesting options 4. EH FOR LAND VEHICLES 4.1. Solar Prius 4.2. Webasto pioneers see-through solar car 4.3. Pure EV motive power 4.4. EH shock absorbers in trucks, buses, cars 4.4.1. Levant Power 4.4.2. Wattshocks 4.5. Regenerative braking 4.6. Electricity from engine and exhaust heat 4.6.1. Copenhagen bicycle 4.6.2. Volvo hybrid bus 4.6.3. Fisker Karma car 4.6.4. Tesla car 4.7. Cruise car solar golf cars 4.8. Ford unveils solar powered car with new system that tracks the sun 4.9. Vibration harvesting ATV in India 4.10. Piezoelectric roads for California? 4.11. Award for railroad energy harvesting 5. EH FOR VEHICLES ON WATER 5.1.1. Example of US navy unmanned surface vehicles 5.1.2. Tamarack Lake foldable inland boat USA 5.1.3. Kitegen seagoing kite boats Italy and Sauter UK 5.1.4. Larger solar lake boats Switzerland 5.1.5. SCOD / Atlantic Motors high performance cabin cruiser USA 5.1.6. MW Line solar seagoing boat Switzerland 5.1.7. Unmanned boat gathering oil USA 5.1.8. Seagoing yachts France 5.1.9. Tag plug in hybrid large sail boat South Africa, New Zealand 5.1.10. T端ranor PlanetSolar solar catamaran Germany 5.1.11. Energy harvesting superyacht UK 6. EH FOR UNDERWATER CRAFT 6.1. Swimmers vs gliders 6.2. Wave and sun powered sea gliders 6.2.1. Virginia Institute of Marine Science USA 6.2.2. Falmouth Scientific Inc USA 6.2.3. Liquid Robotics USA 6.3. Robot jellyfish USA and Germany 6.4. Wind + Solar for ships
7. EH FOR AIRCRAFT 7.1. Energy harvesting 7.1.1. Multiple forms of energy to be managed 7.1.2. AeroVironment / NASA USA 7.1.3. Boeing USA 7.1.4. École Polytechnique Fédérale de Lausanne Switzerland 7.1.5. ETH Zurich Switzerland 7.1.6. Green Pioneer China 7.1.7. Gossamer Penguin USA 7.1.8. Néphélios France 7.1.9. QinetiQ UK 7.1.10. Soaring China 7.1.11. Solair Germany 7.1.12. Solar Flight USA 7.1.13. Sunseeker USA 7.1.14. University of Applied Sciences Schwäbisch Gmünd Germany 7.1.15. US Air Force 7.1.16. Northrop Grumman USA 7.2. Beamed energy 8. EV CHARGING STATIONS WITH HARVESTING 8.1. Energy harvesting 8.1.1. Solar powered charging stations 8.1.2. Alpha Energy USA 8.1.3. Beautiful Earth USA 8.1.4. Envision Solar International USA 8.1.5. E-Move Denmark 8.1.6. EVFuture India 8.1.7. Sanyo Japan 8.1.8. Solar Bullet train 8.1.9. Solar Unity Company USA 8.1.10. SunPods USA 8.1.11. Toyota Japan 8.1.12. Innowattech Israel
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Malic Acid Market - Global Industry Expert Opinions Analysis, Emerging Opportunities, Market Size, Share, Growth Drivers, Market Trends, Statistics And Forecast 2015 – 2020 http://www.mrrse.com/malic-acid-market
Malic acid is a four carbon dicarboxylic organic acid that is essentially synthesized in all living beings. It is responsible for the mildly sour taste in fruits. Malic acid has two steroeisomeric forms; L-malic acid and D-malic acid, however, only L-malic acid is the natural form. It is primarily utilized as a food additive for various applications such as flavor enhancement, bring tartness or sourness, preservation and as an acidulant or pH control. Malic acid is prominently employed for its dual functionality as a flavor enhancer and a preservative. Malic acid is produced industrially from maleic anhydride. The process involves double hydration of maleic anhydride producing a racemic mixture of the two isomers of malic acid. The two enantiomers in the mixture can be later segregated by chiral resolution of the obtained recemic mixture.
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Electrophoresis Reagents Market - Global Industry Expert Opinions Analysis, Emerging Opportunities, Market Size, Share, Growth Drivers, Market Trends, Statistics And Forecast 2015 – 2020 http://www.mrrse.com/electrophoresis-reagents-market
Electrophoresis is a biotechnological technique developed to aid in study of biochemical proteins. It is utilized for several analytical techniques employed in biochemistry for segregating molecules or particles based on their size, charge they carry, or the binding affinity. The market is driven by increased use of electrophoresis in therapeutics, basic research and commercial applications. However, stringent regulations are expected to inhibit market growth. Increasing research and development activities in various industries are expected to act as opportunities for future market growth.
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