About Conference

OMICS International cordially invites all the participants to attend Global Energy Summit & Expo during November 02-03, 2015 at Beijing, China.

Energy Conference: Theme mainly focused on Exploring new frontiers to meet Global Energy Demand.

OMICS International  Organizes 300+ Conferences Every Year across USA, Europe & Asia with support from 1000 more scientific societies and Publishes 400+ journals which contains over 30000 eminent personalities, reputed scientists as editorial board members.

Global Energy Summit aims to bring together leading academicians, researchers, graduate students from all over the world in the field of Energy Engineering and Environmental sciences as well as industrial leaders and innovators to showcase their technology and products.

Energy Engineering Summit acts as a common platform for discussing and sharing the current innovations in the field of Energy Engineering and to explore novel ways to achieve sustainable energy through propagation of Eco-friendly technology.

Despite all developments and policies, the world is still struggling to put existing system onto a more sustainable renewable energy world. Continuous demand for energy and proportional increased emissions of CO2 throughout the world are posing a challenge for global economy as well as Environmental Conservation.

As per World Energy Outlook published by International Energy Agency, nearly 7200 Giga Watts (GW) of capacity needs to be built to keep pace with increasing electricity demand while also replacing existing infrastructure by 2040.The growth of renewable energy  in many countries is going to increase their share in global power generation to one-third by 2040. According to Bloomberg New Energy Finance, Total Clean Energy investments in 2014 around the globe accounts up to 310 billion dollars. Reducing technology costs, innovative financing models and new market players are laying the foundations for increased investment in clean power.

Global Energy Market Scenario

The share of Renewable energy sector in global electricity market  is rising consistently over the last few years. In 2012, the world relied on renewable sources for around 13.2% of its total primary energy supply, and in 2013 renewables accounted for almost 22% of global electricity generation.

Reducing renewable energy technology costs, innovative financing models and new market players are laying the foundations for increased investment in clean power. In 2013, renewables accounted for almost half of new world energy generation capacity. Sharply falling prices for solar panels and wind turbines meant renewable energies in 2013 accounted for over 41% of new generating capacity globally.

According to BNEF, an amount of $400 billion will be invested in renewable energy capacity by 2020, and $460 billion by 2030, three-quarters of which will be for wind turbine energy and solar power. It also predicts solar PV investment rising to $150 billion by 2020 and remains consistent through 2030. It shows wind power investment rising to $140 billion by 2020 and then $200 billion by 2030. It also predicts energy companies  investment in biofuels, biomass, and waste-to-energy reaching $80 billion by 2020 and then declining slightly to $70 billion by 2030. During 2013, top 5 countries  investing in clean energy services and energy market are China, US , Brazil, Canada and Germany.

List of Sessions:

Track 1: Renewable Energy and Green Technology

Renewable energy can be defined as the energy that comes from resources that can be replenished on a human timescale such as sunlight, wind, rain, tides, waves and geothermal heat. Due to recent advances in renewable energy technologies which includes innovation in Green Nano Technology, costs for installation has comedown drastically. Solar Power Applications can play an important role in remote desert areas where grid integration is not possible. Onshore and Offshore Wind power generation and utilization  can harness most powerful and frequent winds in remote areas. Most commonly used form of clean energy generation is Hydro power and Plasma Energy Generation is lesser known but with recent breakthroughs in research, it can emerge as reliable energy source in the future. GeoThermal and Ocean Energy  forms a small percentage compared to other renewable energy technologies.

Two or more forms of energy generation mechanisms can be combined to create a Hybrid Renewable Energy Systems. But the changes in fluctuation of energy production can pose a problem to the entire Grid structure.

Track 2: Solar and Fuel Cell Technologies

Solar thermal technologies are a form of technology for harnessing solar energy to generate thermal energy or electrical energy for use in industry, and in the residential and commercial sectors. Passive solar buildings and technologies  use sunlight without active mechanical systems (as contrasted to active solar). Such technologies convert sunlight into usable heat (in water, air, and thermal mass), cause air-movement for ventilating, or future use, with little use of other energy sources. A common example is a solarium on the equator-side of a building. Examples include Concentrated solar power systems generate solar power by using mirrors or lenses to concentrate a large area of sunlight, or solar thermal energy, on to a small area.  Fuel cell is a device that converts the chemical energy from a fuel into electricity through a chemical reaction with oxygen or another oxidizing agent. They can be used to power vehicles which results in a sustainable transportation and biofuels such as ethanol can be an alternative to carbon emissions. Environmental and economic analyses of fuel cell systems includes producing water, heat and, depending on the fuel source, very small amounts of nitrogen dioxide and other emissions.

Track 3: Smart Grid Technology

A smart grid is a modernized electrical grid that uses analog or digital information and communications technology to gather and act on information - such as information about the behavior of suppliers and consumers - in an automated fashion to improve the efficiency, reliability, economics, and sustainability of the production and distribution of electricity.

Smart Grid Security and Reliability can be proven as major challenge for maintaining integrity of the entire network. Architectures for smart grids, micro grids and super grids involves elements such as Advanced metering infrastructure , artificial intelligence, neural networks and data mining. Modeling of Grid Environments can be defined by factors such as Load balancing in smart grids and Energy storage in smart grid.

Track 4: Power Generation – Conventional

The most common means for power generation includes employing Fossil Fuels and Nuclear Energy plants. Conventional energy sources such as Coal, Gas and Petroleum is commonly used and takes major share when compared with Renewable Energy sources. Nuclear power can be considered as one of the cleanest forms of energy production. But at the same time, the economic impact of nuclear disaster can result in dire consequences and huge economic loss which may last for generations. So, the safe nuclear energy generation and utilization draws a lot of debate from academics and populace alike.

Energy Generation from Fossil Fuels through Thermal and nuclear power technologies  results in emission of large amounts of Co2 in to atmosphere.  New technologies for minimizing CO2 generation have been developed in recent years through constant  research and innovation.

Track 5: Power Transmission and Distribution

Power Transmission refers to the transfer of electrical energy from power stations to electric substations located near demand centers. This is distinct from the local wiring between high-voltage substations and customers, which is typically referred to as electric power distribution. Transmission lines, when interconnected with each other, become transmission networks. The combined transmission and distribution network is known as the "power grid" in North America, or just "the grid". In the United Kingdom, the network is known as the "National Grid".

The transmission losses of electricity over long distances from different sources of fluctuating energy sources can be overcome by using Ultra High Voltage (UHV) technologies. For example, in china majority of hydropower is generated in the west and coal resources in northwest. But energy demand is in the eastern and southern areas. As a result, UHV is an ideal choice for this scenario which results in reliable Power quality and Advanced Power Distribution.

Track 6: Power System Management

Power system planning and operation can be defined as understanding of generation, transmission, distribution of resources  and the complex interaction of their operation as part of a large integrated power grid or an industry. Load modeling, estimation and forecast are vitally important for power sector both in regulated and deregulated economies. For profitable financial scenario for  the power utilities it is important to make an accurate forecast of the demand for the long term, medium term as well as the short term and real time needs in order to efficiently deal with the shortages or surpluses.

Track 7: Regulations and Management

Energy Policies and regulations vary from nation to nation depending on the importance that   can be bestowed upon the natural resources. For example, Oil rich Gulf countries depends on    the economy through crude oil supply to nations globally. Energy policy may include legislation, international treaties, optimization techniques , incentives to investment, guidelines for energy conservation, Energy management systems and pricing. Due to Global Warming caused by Carbon emissions, most of the countries have adopted policies to deploy  renewable energy systems. 

Track 8: Environment and Economic Policies

Energy economics is a broad scientific subject area which includes topics related to supply and use of energy in societies. Due to diversity of issues and methods applied and shared with a number of academic disciplines, energy economics does not present itself as a self-contained academic discipline, but it is an applied sub discipline of economics. Global environmental change and ecosystems management  can be attributed to proper promotion of renewable energy and green technologies. Carbon capture policies can be used for Pollution prevention in industry. The improved role of government in promoting renewable energy will result in facilitation of Sustainable energy and the future.

Market Analysis

About the Conference:

Global Energy Summit 2015 welcomes attendees, presenters, and exhibitors from all over the world to Beijing, China. We are delighted to invite you all to attend and register for the “Global Energy Summit & Expo ( Global Energy Summit-2015 )” which is going to be held during November 02-03, 2015 in Beijing, China organizing by OMICS International.

The organizing committee is gearing up for an exciting and informative Energy Conference program including plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at the Global Energy Summit-2015, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Global Energy Summit-2015 organizing committee look forward to meeting you in Beijing, China.

For more details please visit-http://energy.global-summit.com/

Importance & Scope:

Global Energy Summit-2015 aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results about all the latest research ideas in the field of Energy Engineering. It also provides the chance for researchers, practitioners and educators to present and discuss the most recent innovations, trends, and concerns, practical challenges encountered and the solutions adopted in the fields. Energy Conference focuses on novel ways to meet the ever rising global energy demand.

Global Energy Summit -2015 is an international platform for presenting research about recent trends in renewable and clean energy, thus contributes to the dissemination of knowledge for the benefit of both the academia and business. This event brings together the top professionals in the field along with the highly affiliated professors to explore the advancements and latest applications achieved for further advancement of Green Energy in global market. The scientific program will focus on current advances in the research on clean technology and energy efficient techniques with particular focus on smart grid, electric vehicles, eco-friendly technology and related areas.

Why China?

China is the world's most populous country and has a rapidly growing economy, which has driven the country's high overall energy demand and the quest for securing energy resources. China has the world’s largest installed electricity generation capacity in the world which also includes largest thermal power capacity, largest hydropower capacity, largest wind power capacity and one of the largest solar capacity in the world.  However, Coal supplied the vast majority (69%) of China's total energy consumption in 2011. As a result of high coal consumption, China is also the world's leading energy-related CO2 emitter, releasing 8,715 million metric tons of CO2 in 2011.  The Chinese government set a target in its 12th Five-Year Plan to raise non-fossil fuel energy consumption to 15% of the energy mix by 2020 in efforts to ease the country's dependence on coal. 

According to The Global Status Report, which was released  by the Renewable Energy Policy Network for the 21st Century, China led the rest of the world in renewable energy investment in 2013, spending a total of $56.3 billion on wind, solar and other renewable projects. The report stated that China accounted for 61 percent of the total investment in renewables by developing countries. China has increased its investment in renewables nearly every year for the past ten years. China’s renewable energy investment is part of its 12th Five-Year Plan for Economic and Social Development, which calls for the country to spend $473.1 billion on clean energy investments from 2011 to 2015. Due to China’s increased commitment over clean energy investments , it is an ideal platform for Industrial Experts and academicians from Universities around the world to share their expertise with their peers.

Conference Highlights:

• Renewable Energy and Green Technology
• Solar and Fuel Cell Technologies
• Smart Grid Technology
• Power Generation-Conventional
• Power Transmission and Distribution
• Power System Management
• Regulations and Management
• Environment and Economic Policies

Why to attend???

With members from around the world focused on importance of investing in green energy, this is your single best opportunity to reach the largest assemblage of participants. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 3-day event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in fields are hallmarks of this conference.

A Unique Opportunity for Advertisers and Sponsors at this International event: http://energy.global-summit.com/sponsors.php

Major Associations around the Globe:

•     Association of Energy Engineers
•     IEEE Power and Energy Society
•     American Society of Power Engineers
•     IEEE Smart Grid
•     European Renewable Energy Council
•     International Renewable Energy Alliance
•     International Renewable Energy Agency
•     International Network for Sustainable Energy
•     Green Power Forum UK

Target Audience:

Professors and Students from Academia in the study of Energy, Electrical, Electronics and Mechanical Engineering disciplines. Industrial Experts and CEO’s who are associated with Power Sector, Nuclear Power Generation Companies, renewable and Energy Efficient Technologies, Economists and Environmentalists.

Top Universities in China:

•      Zhejiang University
•      Peking University
•      Tsinghua University
•      Shanghai Jiao Tong University
•      Fudan University
•      Nanjing University
•      University of Science and Technology of China
•      Huazhong University of Science and Technology
•      Harbin Institute of Technology

Companies Associated with Energy Sector in China:

•    China Datang Corporation
•    China Guodian Corporation
•    China Huadian Group
•    China Huaneng Group
•    China Power Investment Corporation
•    China Resources Group
•    Shenzhen Energy
•    Shenergy Company
•    China Guangdong Nuclear Power Group
•    China Yangtze Power
•    Sinohydro Corporation
•    State Grid Corporation of China
•    China Southern Power Grid
•    CHINT Group Corporation

Software Applications:

Software applications enable us to maintain the data and helps in analytical method validation processes. These are the few software applications developed by few companies:

•   PSS ®E high-performance transmission planning software (Siemens)
•   Power Plant Design Software ( Intergraph )
•   AVEVA Plant engineering and design software
•   COMOS for the power industry ( Siemens )
•   IPSEpro Power Plant Design / Analysis Software ( SimTech )

Global Clean Energy Investment:

The share of Renewable energy sector in global electricity market is rising consistently over the last few years. In 2012, the world relied on renewable sources for around 13.2% of its total primary energy supply, and in 2013 renewables accounted for almost 22% of global electricity generation.

Reducing technology costs, innovative financing models and new market players are laying the foundations for increased investment in clean power. In 2013, renewables accounted for almost half of new global power generation capacity. Sharply falling prices for solar panels and wind turbines meant renewable energies in 2013 accounted for over 41% of new generating capacity globally.

According to BNEF, an amount of $400 billion will be invested in renewable energy capacity by 2020, and $460 billion by 2030, three-quarters of which will be for wind and solar power. It also predicts solar PV investment rising to $150 billion by 2020 and remains consistent through 2030. It shows wind power investment rising to $140 billion by 2020 and then $200 billion by 2030. It also predicts investment in biofuels, biomass, and waste-to-energy reaching $80 billion by 2020 and then declining slightly to $70 billion by 2030. During 2013, top 5 countries investing in clean energy are China, US Brazil, Canada and Germany.

According to Ernst & Young Renewable Energy Country Attractiveness Index,  top 10 investment destinations in Clean Energy are as follows:

According to Bloomberg New Energy Finance, Total Clean Energy investments in 2014 around the globe accounts up to 310 billion dollars.

Projected Renewables growth 2012 to 2035:

Estimated People working on Energy Engineering: