A warm welcome to the “ International Webinar on Power and Energy” which is going to be held during August 27-28, 2020. Frankfurt, Germany. Power energy – 2020 brings upon a new platform to share and discuss all the innovations in the power and energy field.
The Power and Energy Conference has become the premier platform not only for the presentation of new science and applications, but also for the unique networking opportunities and technologies. The 2020 Conference will be a great international gathering of researches, scientist and engineers in the field of Power and Energy
We encourage researches, experts, engineers, and scientists as well as businessman in the Power and Energy field and those interested in any aspect of sustainable development to attend this conference. It is only through an exchange of the widest variety of research and technology that we can offer the best program and benefits to our members and the nature.
In addition to traditional abstract presentations and keynote lectures by the world renowned invited speakers.
We look forward to welcoming you to an inspiring,
educational and enjoyable program in the financial capital continental Europe Frankfurt.
We warmly invites all the participants from all over the world to attend the “ International Webinar on Power and Energy” (Power Energy 2020) at Frankfurt, Germany during August 27-28, 2020. The most interesting things happen at edges and boundaries, and so the aim of the conference is to demonstrate and examine different approaches in innovative power energy.
We gladly welcome all the guests around the world for the hearing of the foremost recent innovations and inventions in the field of power and energy. This Conference will provide a place for the exchange of ideas and glimpse by leading scientists, researchers and also from the academicians around the globe. There will be many outstanding keynote speakers and well known leading scientists and experts from various places of the globe to share their ideas and talk about various aspects related to the field of power energy. Our aim is to gather peer researchers, engineers, young scientists, academicians & industrialists to meet, discuss and share the ideas related to it and the knowledge that’s still more to be revealed. The conference will reveal the present and future aspects in the field of power energy.
Energy bond lesser dependence on oil imports by development and deployment of equivalent fuels (hydrogen, bio-fuels and synthetic fuels) and their operations to commit towards bridging the gap between domestic oil supply and requirement. Energy Availability and Access Supplement energy needs of cooking, heating, motive power and, industrial and commercial sectors. Energy Affordability Cost vying, convenient, safe, and reliable new and renewable energy supply options. Energy Equity Per-capita energy consumption at par with the global moderate level by 2050
Why to attend?
With members from around the world concentrated on the power energy. this is your single best opportunity to reach the largest assembly of participants from the global energy sector Conduct demonstrations, distribute information, World-renowned speakers, the most recent techniques, tactics, and the newest updates in power energy fields are hallmarks of this conference. Conference brings together experts, researchers, scholars and students from all areas of Electrical Engineering, Electronics, Control Engineering, Mechanics and other related areas, Wind energy associations, Turbine traders, generating and planning professionals, Developers, Contractors, planning and Design, Consultancy, and controllers manufacturers.
The joy of attending Power Energy 2020 brings with it improvement and incremental growth in your approach to do things, in the broader manner to see things and the beauty to live international diversity.
Come be Part of it...
Advantages of Attending the Conference:
Ø To meet experts in the field of Power and Energy
Ø To discuss and share the knowledge with Professors, Scientists, Engineers, Researchers and Business Intelligences
Ø An opportunity to meet World's Eminent Speakers’
Ø To pick up & advance knowledge in the field of Engineering & Technology
Ø Each abstract will receive a Digital Object Identification Number (DOI)
Engineers who are dedicated on the specific fields like Electrical & Electronics Engineers, Electronics and communications, Mechanical Engineers, and Civil Engineering. Renewable Energy experts, Wind Turbine Producers, Environmental Engineers, Wind Turbine blade originators who are related to those topics. Wind Power Industries, Renewable Energy Industries, Software Publishing Houses focusing in Turbine Design software’s are the Prospective Exhibitors for the Respective Conferences. American Wind Energy Association, Renewable Energy engineering institutes. Students and delegates.
Tracks / Sessions
· Power system insulation
· Thermal and recycling
· Biomass and eco-design
· Envisioning the future energy system
· Electricity storage and Energy efficiency
· Nuclear Spent Fuel Management
· Solar, wind, sea and hydroelectric energy
· Lightning and electromagnetic transients
· Electromagnetic compatibility/Power quality
· Power system dynamics, stability and control
· Power planning, diversity, reducing emissions
· Renewable energy sources and storage devices
· Power system instrumentation, measurements and automation
· Renewable energy management and environmental impact
· Transportation generation and distribution power system
· Planning and operation of power systems under market conditions
· Restructuring of the electricity industry and transnational networks
What is Power?
Power is a physical concept that has several different meanings, Power is the rate at which work is done or energy is transferred in a unit of time. Power is increased if work is done faster or energy is transmitted in less time.
Formula of power
As discussed power is the rate of doing work. Therefore it can be calculated by dividing work done by time. The formula for power is given below.
P = W/t
P = Power | W = Work done | T = Time taken
SI Unit of Power
According to the popular standards, the SI unit of power is none other than watt which is defined by the symbol W). One joule per second is also equal to one watt. Interestingly, the name was kept in remembrance of James Watt who invented the condenser for the steam engine. He also originates the term horsepower which is the older unit of power. It can be depicted as
1 watt = 1 J/s = 1 kg-m2/s3
What is Energy?
Energy is the ability to perform work. Energy can neither be created nor destroyed. It can only be transformed from one kind to another. The unit of Energy is same as of Work i.e. Joules. Energy is found in many things and thus there are different types of energy.
All forms of energy are either kinetic or potential. The energy in motion is known as Kinetic Energy whereas Potential Energy is the energy stored in an object and is measured by the amount of work done.
Types of energy
Some other types of energy are given below:
- Mechanical energy
- Mechanical wave energy
- Chemical energy
- Electric energy
- Magnetic energy
- Radiant energy
- Nuclear energy
- Ionization energy
- Elastic energy
- Gravitational energy
- Thermal energy
- Heat Energy
Unit of energy
The SI unit of energy is joules (J), which is named in honour of James Prescott Joule.
Tracks / Sessions
Track 1: Power Generation Technologies
Power generation technologies deals with the generation, transmission, distribution and utilization of electricity as well as the design of a range of related devices. This combines transformers, electric generators, electric motors and power electronics. Technologies relate to generate the power are called power generation technologies. Generation of electrical power is a transform whereby energy is transformed into an electrical form. There are different transformation processes, among which are chemical, photo-voltaic, and electromechanical. Electromechanical energy conversion is used in transform energy from coal, petroleum, natural gas, uranium, or water flow into electrical energy. Of these, all except the wind energy transformation process take advantage of the synchronous AC generator coupled to a steam.
Track 2: Electric Power Transmission and Distribution
Electric power transmission is just the total transmission of electrical energy, from generating power plants to electrical substations placed close demand centres. This is very much characterized from the local wiring between high-voltage substations and customers, who is commonly introduce to as electric power distribution. Transmission lines, when interconnected with one another, become transmission networks. In North America the integrated transmission and circulation network is known as the "power grid”. "Power grid" is also called as the "National Grid” within UK. A wide filed synchronous grid, called an "interconnection".
Track 3: Power system Protection
Power system conservation is a sub field of electrical power engineering that discuss with the assurance of electrical power systems from lack over the partition, of change parts from the rest of the electrical network. The purpose of a protection strategy is to remain the power system stable by isolating only the components that are under fault, whilst leaving as a lot of the network as possible still in working. Thus, protection design must apply a very pragmatic and pessimistic access to clearing system faults
Track 4: Smart Grid Technologies
A smart grid is a system which incorporates assorted conditions of operational and energy measures including smart meters, smart appliances, renewable energy resources and energy capability resources. Electronic power conditioning and domination of the production and distribution of electricity are notable appearance of the smart grid.
Track 5: Power Systems
An Electric Power System is a matrix of electrical component used to supply, transfer and apply power. A case of Electric Power System is the network that gives a district's homes and industry with power for sizable regions, this power system is known as the grid and can be widely split into the generators, supply the power, the transmission system that fetches the power from a generating centres to the load centres and the distribution system that feeds the power to adjacent industries and homes. Smaller power systems are also found in hospitals, industry, buildings and commercial homes. Direct current power can be supplied by fuel cells or photovoltaic cells, batteries. Alternating current power is typically gives by a rotor that spins in a magnetic field in a device known as a turbo generator.
Track 6: Power Electronics
Power electronics is the implementation of solid-state electronics to the control and transformation of electric power. It is an accountable of analysis in electronic and electrical engineering which negotiate with the design, control and integration of nonlinear, time-varying energy processing electronic systems with quick dynamics. In cutting edge frameworks the transformation is performed with semiconductor switching devices such as, diodes and transistors. As opposed to electronic systems disturbed with transmission and processing of signals and data, in power electronics significant amounts of electrical energy are processed. An AC/DC converter (rectifier) is the most representative power electronics device found in many consumer electronic devices, e.g. battery chargers, television sets, personal computers etc.
Track 7: Solar Power Technology
Solar panels transform the sun's light in to applicable solar energy using N-type and P-type semiconductor material. This process of transforming light to electricity is called the photovoltaic (PV) effect. Currently solar panels transform light spectrum and infrared ultraviolet spectrum to usable solar energy. The new technologies of solar power are heating water with solar energy Solar Electricity Using the sun's heat to produce electricity. Solar Process pace Heating and Cooling Industrial and commercial value of the sun's heat. The 377 MW Ivana Solar Power Facility, placed in California's Mojave Desert, is the world’s largest solar thermal power plant project. Other huge CSP plants include the Sol nova (150 MW), the Andosol (150 MW), and Entresol Solar Power Station (150 MW), all in Spain.
Track 8: Renewable and Non- Renewable Energy Resources
Natural resources, known as renewable resources, are replacing by natural processes and forces determined in the natural environment. Renewable resources are restoring naturally and over relatively short periods of time. The five primary renewable energy resources are solar, wind, water (hydro), biomass, and geothermal.
Careers in both the renewable and non-renewable energy management are growing however; there are differences between the two sectors. They each have assistance and challenges, and reveal to unique technologies that play a role in our current energy system. For a range of reasons, from the limited supply of fossil fuels accessible to their effects on the environment, there is increased interest in using renewable forms of energy and developing technologies to expand their efficiency.
Track 9: Bio-Energy and Green Energy
Modern bioenergy is profitable energy production from biomass for industry, power generation, or transport fuels. Bioenergy is an comprehensive term for all forms of biomass and biofuels. Green energy is an alternate term for renewable energy that is the energy generated from sources that are considered environmentally friendly. The term biofuel is referred to as liquid or gaseous fuels for the transportation sector that are predominantly produced from biomass. Bioethanol is a petrol additive/substitute. Biodiesel is an environmentally friendly alternative liquid fuel that can be used in any diesel engine without conversion.
Track 10: Hydro and Ocean Power Technology
The most usual water technology is hydropower, in which the force of moving water propels a turbine, which in turn runs a generator to create electricity. Hydropower and different water technologies are renewable because their fuel is regularly restored over the water cycle; they are clean replacement to the burning of fossil fuels that cause climate change. Hydropower does not require the acquisition of fuels for generation, unlike natural gas, coal and other fuel-burning plants.
Ocean thermal energy conversion (OTEC) uses steam produced from heated surface water to spin generating turbines. Cold deep ocean water summarizes the steam back into water for reuse. A 36°F temperature variation is necessary between the surface and deep water
Track 11: Wind Power Technology
Wind energy is a form of solar energy. Wind energy (or wind power) characterize the process by which wind is used to generate electricity. A wind turbine converts the kinetic energy in the wind into mechanical power. A generator can convert mechanical power into electricity. Mechanical power can also be appropriate directly for specific tasks such as pumping water.
Wind is caused by the irregular heating of the atmosphere by the sun, variations in the earth's surface, and rotation of the earth. Mountains, bodies of water, and vegetation all pressure wind flow arrangements Wind turbines convert the energy in wind to electricity by revolve propeller-like blades around a rotor. The rotor spins the drive shaft, which pass an electric generator.
Track 12: Nano Technology for Renewable Energy
The Nano materials with diameter <100 nm can be used to reduce the size of information processing parts of most usable devices such as cell phones and lap computers. Nano technology is used for renewable energy as the efficiency of the photovoltaic (PV) solar cells was increased by Nano technology, while their manufacturing and electricity production costs were reduced at an unprecedented rate. Hydrogen production, storage and transformation into electricity in fuel cells were improved by using nanostructured materials. This was occurred by increasing hydrogen adsorption capacity which led to make the fuel cells more efficient and cheaper. Nano technology leads to an increased efficiency of lighting and heating, increased electrical storage capacity and decrease in the amount of pollution from the energy using.
Track 13: Fuel Cell and Combustion
A fuel cell is a device that transforms chemical potential energy (energy stored in molecular bonds) into electrical energy. A PEM (Proton Exchange Membrane) cell needs hydrogen gas (H2) and oxygen gas (O2) as fuel. The products of the reaction in the cell are water, electricity, and heat. This is a big advancement over internal combustion engines, coal burning power plants, and nuclear power plants, all of which produce unhealthy by-products.
By transforming chemical potential energy accurately into electrical energy, fuel cells avoid the “thermal bottleneck” (a consequence of the 2nd law of thermodynamics) and are thus naturally more adequate than combustion engines, which must first transforms chemical potential energy into heat, and then mechanical work.
Track 14: Advanced Bioenergy
Advanced bioenergy is composed from lignocellulosic feed stocks (i.e. agricultural and forestry residues, e.g. wheat straw/corn stover/bagasse, wood based biomass), non-food crops (i.e. grasses, miscanthus, algae), or industrial waste and residue streams, has low CO2 emission or high GHG reduction, and ability zero or low ILUC impact.
Advanced bioenergy, has the potential to establish thousands of new jobs, stimulate rural development and generate wealth within the growing European bio economy. Advanced bioenergy contributes automatically to energy security, reduces GHG emissions and provides a long-term continuous alternative to fossil fuels in Europe.
Track 15: Biodiesel, Biogas, Biomass
Biomass is organic matter extracted from living, or recently living organisms. Biomass can be apply as a source of energy and it most often directs to plants or plant-based matter which are not used for food or feed, and are precisely called lignocellulosic biomass.
Biogas generally refers to a mixture of various gases produced by the breakdown of organic matter in the absence of oxygen. Biogas can be composed from raw materials such as agricultural waste, manure, municipal waste, plant material, sewage, green waste or food waste. It is a renewable energy source and in many cases exerts a very limited carbon footprint. Biogas can be formed by anaerobic digestion with anaerobic bacteria, which digest material inside a closed system, or fermentation of materials
Biodiesel is one of the most patterns of alternative energy resource comparable to fossil diesel. Biodiesel can be produced by simple transesterification process from hydrogenated vegetable oil, animal fats and waste cooking oil.
Track 16: Global Energy Conservation
Energy conservation is the power made to reduce the consumption of energy by using fewer of an energy service. This can be accomplish either by using energy more accurately (using less energy for a uninterrupted service) or by reducing the amount of service used (for example, by driving less). Energy conservation reduces the need for energy supply and can result in expanded environmental quality, national security, personal financial preservation and higher savings. It is at the peak of the sustainable energy hierarchy.
Energy can be conserved by reducing wastage and losses, improving efficiency over technological upgrades and enhanced operation and conservation. On a global level energy use can also be reduced by the stabilization of population advancement.
Hydrogen is the simplest and most sufficient element in the universe. It does not occur naturally. While it exists pleasant much everywhere in the air, in space, in the ground- it is rarely alone. It’s attainable in combination with other elements such as water. Water is made up of hydrogen and oxygen. This measure that it is usually combined with another element, making it mandatory to extract and transform it to make it a usable energy source. Hydrogen also occurs in large organic compounds, for example, hydrocarbons that result in fuels like natural gas, gasoline, propane, and methanol. The biggest challenge to harnessing hydrogen is harvesting it in its purest form.
Track 18: Energy and Environment
Energy and Environment is a multidisciplinary aimed at natural scientists, technologists and the international social science and policy association covering the direct and indirect environmental impacts of energy procurement, transport, manufacture and use. The technological and scientific form of power and environment questioning including energy management, and the communications of energy forms and systems with the physical environment, are covered, including the relationship of such query to wider economic and socio-political issues. Papers covering energy related aspects of wider environmental investigation are included, such as the use of fuel wood and enduring impacts of de-forestation.
Track 19: Sustainable Energy
Sustainable energy is a form of energy that meets our today’s requirement of energy without putting them in danger of getting close or reduced and can be used over and over again. Sustainable energy should be widely encouraged as it do not cause any damage to the environment and is available extensively free of cost. All renewable energy sources like solar, wind, geothermal, hydropower and ocean energy are sustainable as they are stable and applicable in enough.
Fossil fuels are not treated as sustainable energy origin because they are limited, cause endless abuse by releasing harmful gases and are not applicable everywhere on earth. Fossil fuels normally combine coal, oil and natural gas. Steps must be taken to reduce our dependency on fossil fuels as pose critical to environment.
Track 20: Green Technology
Green technology, also familiar as sustainable technology, takes into account the long- and short-term impact something has on the environment. Green products are by definition, environmentally friendly. Energy efficiency, recycling, health and safety concerns, renewable resources, and more all go into the making of a green production or technology.
Green technology is a comparably new field that has grown immediately as people have become conscious of their destructive effects on the environment, including global warming and the greenhouse effect. It is a wide-encompassing field and sometimes a politically controversial one. Green technology is one of the rapid growing employment sectors and is surely much more than a passing trend.
Track 21: Nuclear Energy
Nuclear power is the control of nuclear reactions that release nuclear energy to develop heat, which most frequently is then used in steam turbines to produce electricity in a nuclear power plant. Nuclear power can be access from nuclear fission, nuclear decay and nuclear fusion reactions. Presently, the massive majority of electricity from nuclear power is produced by nuclear fission of uranium and plutonium. Nuclear decay transform are used in niche applications such as radioisotope thermoelectric generators. Generating electricity from fusion power remains at the target of international research. This piece mostly deals with nuclear fission power for electricity generation.
Track 22: Radiant Energy
, energy that is transferred by electromagnetic radiation, such as light, X-rays, gamma rays, and thermal radiation, which may be characterize in terms of either discrete packets of energy, called photons, or stable electromagnetic waves. The conservation of energy law requires that the radiant energy consumed or emitted by a system be included in the total energy.
The term is most frequently used in the fields of radiometry, solar energy, heating and lighting, but is also used less periodically in other fields (such as telecommunications). In applications affect transmission of power from one region to another, "radiant energy" is frequently used to determine to the electromagnetic waves themselves, rather than their energy (a property of the waves).
Track 23: Sound Energy
In physics, sound energy is a mode of energy. Sound is a mechanical wave and as such subsist physically in oscillatory elastic compression and in oscillatory displacement of a fluid. Sound energy is the form of energy created when a body vibrates. Once formed through vibrations, sound energy is transferred in waves through mediums such as air and water before it reaches your ears.
Sound energy is commonly measured by its intensity and pressure, in special units known as Pascal’s and decibels. In light of the evidence that sound is a mechanical wave, it develop physically in oscillatory elastic compression as well as in oscillatory displacement of fluid.
Track 24: Light Energy
Light energy is a kind of kinetic energy with the capability to make from of light clear to human eyes. Light is determined as a form of electromagnetic radiation emitted by hot objects like lasers, bulbs, and the sun. Light consists of photons which are minute packets of energy. When an object’s atoms get heated up, it results in the manufacturing of photons and this is how photons are produced.
Light travels in the form of a wave when it travels. However, no matter is requirement to carry the energy along to travel. This is the reason why light can travel over space where there is no air. This is not the case with sound waves since they have to travel over solids, liquids or gas. Light energy is very active and travels rapid than anything
Track 25: Gravitational Energy
Gravity is a force which shot to pull two substances toward each other. Earth's gravity is what conduct you on the ground and what generate objects to fall. Gravitational energy is the energy stored in an object expected to its height raised the Earth (e.g. if it's more away or closer to the ground). It is a form of potential energy.
Gravitational energy (GPE) is the potential energy a physical body with mass has in relation to another massive body due to gravity. It is potential energy combine with the gravitational field. Gravitational energy is dependent on the masses of two bodies, their length apart and the gravitational constant (G).
Track 26: Elastic Energy
Elastic energy is energy stored in an body when there is a limited strain on it like in a coiled spring or a stretched elastic band. The energy is stored in the bonds between atoms. The bonds consume energy as they are put under stress and release the energy as they relax (when the object comes back to its original shape).
Force acting on an body can origin it to temporarily difference its shape, such as when you stretch an elastic band, or squash a squishy ball with your hand. When this happens, elastic energy can be stored in the body, accessible to be released when the object goes back to its original shape
Track 27: Energy storage
Energy storage systems are fundamental to the operation of power systems. They establish continuity of energy supply and develop the reliability of the system. Energy storage systems can be in many forms and sizes. The size, amount, and scalability of an energy storage system extremely depend on the form of the stored energy. Energy can be stored as potential, kinetic, chemical, electromagnetic, thermal, etc.
For example, chemical batteries are well suitable for small systems ranging from watches and computers to building backup systems but are still valuable when megawatt scales are considered. Pumped hydropower storage, on the other hand, which stores massive amounts of energy in the form of potential energy of water, can be begin only in large power systems.
The city is known for its futuristic skyline and the busiest German airport. Located on the river Main, Frankfurt is the financial capital of Continental Europe and the transportation centre of Germany. Frankfurt is home of the European Central Bank and the German Stock Exchange.
Frankfurt is very much worth your time to visit. Depending on your interests, there are about 20 museums you could visit, and depending on the date there may well be a great fest you could go to.
Beer Germany is known worldwide for having great beer. Cars Germany is the world's third biggest car producer in the world, after Japan and the US. Famous brands include Mercedes-Benz, BMW, Audi, and Volkswagen. Bread Germany has over 300 varieties of bread.
Frankfurt, a central German city on the bank of river Main, is a major financial nerve centre that's home to the European Central Bank. It's the birthplace of famed author Johann Wolfgang von Goethe, whose former home is now the Goethe House Museum. Alike much of the city, it was flawed during World War II and later rebuilt. Frankfurt is home to authoritative educational institutions, including the Goethe University, the UAS, the FUMPA, and graduate schools like the Frankfurt School of Finance & Management’s
The city is well known for its futuristic skyline and the busiest German airport. Located on the river Main, Frankfurt is the financial capital of Continental Europe and the shipping centre of Germany. Frankfurt is place of the European Central Bank and the German Stock Exchange.
History of Frankfurt
Frankfurt was a city state, the Free City of Frankfurt, for nearly five centuries, and was one of the most great cities of the Holy Roman Empire, as a site of imperial crowning; it lost its dominance upon the collapse of the empire in 1806 and then permanently in 1866, when it was annexed by the Kingdom of Prussia. It has been section of the federal state of Hesse since 1945. Frankfurt is culturally, ethnically, and religiously diverse, with half of its population, and a majority of young people, having an exodus background.
Frankfurt is an alpha world city and a global centre for commerce, culture, education, tourism and transportation. It is the location of many global and European corporate headquarters. Frankfurt Airport is among the worlds busiest. Frankfurt is the major financial hub of the European continent, with the headquarters of the European Central Bank, Deutsche Bundesbank, Frankfurt Stock Exchange, Deutsche Bank, DZ Bank, Kiwi, and Commerzbank.
Frankfurt's skyline is shaped by some of Europe's tallest skyscrapers. The city is also characterised by different green areas and parks, including the central Wallanlagen, the City Forest and two large botanical gardens, the Palmengarten and the University's Botanical Garden. Very significant is also the Frankfurt Zoo. In electronic music, Frankfurt has been a pioneering city since the 1980s, with renowned DJs including Sven Väth, Marc Trauner, Scot Project, Kai Tracid, and the clubs Dorian Gray, Omen and Cocoon. In sports, the city is known as the home of the top tier football club Eintracht Frankfurt, the Löwen Frankfurt ice hockey team, and the basketball club Frankfurt Skyliners.
Germany today is universally regarded as the most powerful country in Europe. But it is often reluctant to take the lead. This hesitance has much to do with the support of German power Berlin has considerable resources but also faces considerable constraints. Most generally, German power is embedded in the European Union, which both enhances and confines the country’s potential to be a foreign policy player.
Germany has come over the global financial crisis in better shape than most European countries. It takes healthy economic growth in years to come, and the official is 1.75 per cent. With its solid manufacturing base and many “hidden champions” globally successful small and medium-sized businesses the German economy has drawn worldwide admiration, despite regular opinion of its strong emphasis on exports.
Scope and importance
Many people admit that power and influence is the same thing. We accomplished in our reading this week that this is not the case. Power is the capacity to principle change, produce effects on others or potentially influence others (PSU WC, L. 7.). Power is the operation of a relationship because it applies not only to the leader, but also to the followers and the situation.
Power and Energy is essential for modern society to function well. Renewable power production and new energy saving appliance are undergoing a fast development action to deal with environmental subject like global warming. In the subsequent, civilization will be forced to research and develop substitute energy sources. The need for non-polluting energy systems like wind power and the use of electric cars for transportation, in order to weaken CO2 emissions and establish a cleaner environment. Electricity from the atmosphere will be a different energy source for the prospective.
Global Energy industry including both conventional and non-conventional resources is normal to explosion in the near term. With growing focal point of the countries on the waste management action, energy and power market is expected to be a million dollar convenience for the companies in future. Crude oil market also looks auspicious and according to the U.S. Energy Information Association (EIA) forecasts, the Brent crude oil prices are expected to continue $60/b and $67/b in 2015 and 2016 respectively. However, the energy and power industry might face some crunches in second half of 2015 on the back of uncertainties surrounding Iran which may result in available lifting of the sanctions.
Our company therefore offers comprehensive research on global energy and power market trends to help you have a closer look towards the energy market growth. We offer a vast range of Energy and Power Market Research address including detailed study on conventional and non-conventional energy segments. Our current portfolio for this sector includes Energy & power market details on Global Shale Gas market, Ethylene production market tendency, Global industry analysis including growth in size and share, Global Energy chemicals and oil market from waste plastic recovery and technologies including research on recycled plastics and plastic waste to oil.
Our reports implement a significant energy market analysis and understanding of energy market trends from regional aspect. Our Energy and Power Market Research Reports contribute market share of key players and detailed analysis of their strategies. The report prepares global energy industry analysis for the year 2015 and energy market forecast for the period of 2015-2021.
Our Energy domain has reports on the following markets:
Non-renewable/Conventional Energy- Under this category Shale Gas is an emerging opportunity which has caught much consideration in the recent times. Further with the growing acceptance of technologies such as hydraulic fracturing and horizontal drilling is also making shale gas available at interesting prices. This sector covers emerging trends and anticipation surrounding this segment. The current reports published under this market include Global Shale Gas market analysis with a laser focus on geographical applications, ethylene production market trends, future convenience and forecasts. Information under this section is on Global Energy chemicals and oil market from waste plastic recovery and technology including detailed industry analysis, size, share, growth trends and forecasts.
Renewable Energy- Under renewable energy division bio-diesel and bio-energy has gained much suction mainly on the back of rising crude oil prices, low carbon emission, volatility and growing interest of government on this. The current information published under this segment includes Top Bio-Diesel and Bio-Fuel market opportunities analysis, market forecasts and winning strategies.
Market in Europe:
European generators should advertise their power grids and gas pipelines to help boost meeting and investment in Europe’s power markets, according to a recommendation by the European Commission (EC). Non-European companies that enter European markets must also isolate their supply and network businesses, the EC added in a recent report to the 27 governments of the European Union.
European energy group control the generation of their gas and electricity, the report said a influence that gives them “an inherent interest to limit new investment when this will assistance its competitors”. The EC added that billions of dollars are needed to upgrade Europe’s energy grid, which will allow splinter markets to be connected and power blackouts or gas shortages to be avoided.
Major companies associated with power and energy
· Baylor Company
· Empire State Electric Energy Research Corporation
· Industrial and Power Association
· Koester Corporation
· Power Grid Corporation of India Limited
· Quality Engineering International
· Schweitzer Engineering Labs, Inc.
· South eastern Transformer Company
· Superconductor Technologies, Inc.
· Thunderbird Power Systems, Inc.
· Trace Technologies
· Humboldt University of Berlin
· Technical University Berlin
· Technical University Dresden
· University of Stuttgart
· University of Erlangen-Nuremberg
· Technical University of Chemnitz
· Darmstadt University of Technology
· University of Wurzburg
· Justus-Liebig university of Giessen
· University of Tubingen
· University of Stuttgart
· Leibniz University Hannover
· University of Kiel