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Renowned Speakers

Hong Wang

Hong Wang

Pacific Northwest National Laboratory USA

Gabor Karsai

Gabor Karsai

Vanderbilt University USA

Tony Cox

Tony Cox

VP Partners, Alliances & Standards - Cryptsoft Australia

Li Kaicheng

Li Kaicheng

Huazhong University of Science and Technology China

Qing Gao

Qing Gao

Fudan University, China

Takashi Iwamoto

Takashi Iwamoto

Keio University Japan

Abel Tablada

Abel Tablada

National University of Singapore Singapore

Yang Zhou

Yang Zhou

Fudan University China

Smart Grid Convention 2017

Welcome Message by Prof Hong Wang

Welcome Message by Prof Gabor Karsai

 

  

    

Sessions/Tracks

Conference Series LLC heartily invites all the participants to attend 1st International Conference on Smart Grid Technologies schedule during September 11-12, 2017 Singapore a leading forum for Business professionals, Scientists, Professor, Directors of companies, Delegates, Industrialists, Researchers and Students in the field of Smart Grid Technologies to exchange information on their latest research progress and with a theme “Digitizing power through Smart Grids for better and easy utility” to cover almost all aspects and fields of Smart Grid Technologies.

Smart Grid Convention conference is to learn and share his/her views and knowledge on Smart Grid Technologies. This Conference provides a forum for exchange of ideas and authoritative views by leading scientists as well as business leaders and investors in this exciting field. Outstanding keynote speakers and well known leading scientists and experts from around the globe will be expected to share their knowledge and also this conference mainly focuses to gather all the market performers and professionals of its kind under the same roof at the same time; it offers an effective platform to develop this fast growing market and to accentuate the challenges in these electrical power sources.

Smart Grid Technology

The grid, refers to "electric grid" which is a network of transmission lines, substations, transformers that delivers electricity from the power plant to the destination. It combines information technology with power transmission to benefit your home, your community, and your nation. Smart grid is the unified combination of technologies such as IT, telecommunication and electrical and processes into transmission and distribution networks and smart meters for the consumers to accomplish objective of economic and reliable production, transportation and consumption of electricity.

Smart Grids are two-way communication technology. At the beginning,  smart grid technology used on electricity networks, which is generated from  the power plants and wind farms all the way is used by the consumers of electricity.  It helps us in facilitating real-time troubleshooting problems.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on Nuclear Engineering October 16-18, 2017 Atlanta, USA; 2nd World Congress on Wind & Renewable Energy June 21-23, 2017 London, UK; 2nd International Conference on Power and Energy Engineering July 20-21, 2017 Munich, Germany; 3rd International Conference and Business Expo on Wireless & Telecommunication July 20-21, 2017 Munich, Germany; International Conference on Battery and Fuel Cell Technology December 8-9 | 2016 | Dubai | UAE;6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; Green Button AllianceNational Electrical Manufacturers AssociationAmerican Public Power Association,  Gridwise AllianceUTC's Smart Network Council.

Grid Design and Tools

Smarter design requires smarter design tools. The framework is based on an innovative approach which integrates a model for specifying autonomous behaviour and architectural model design for specifying Smart Grids. This autonomous model makes a loop for monitoring the properties that have to be controlled, analyse its value. Smart grid architectural model prolongs software architectural models with the concept of power network domain to facilitate the design. The framework follows with a well-defined process that involves configuration of autonomous smart grid architectures, the execution of model-to-code generation patterns and the execution of the generated code. The power system supplying energy i.e. the large generating units and the transmission grid has good communication links to ensure its effective operation, to enable market transactions, to maintain the security of the system, and to facilitate the integrated operation of the generators and transmission circuits. These power systems have some automatic control systems which are limited to local, discrete functions to ensure predictable behaviour by the generators and the transmission network during major disturbances.

Our "Smart Grid" focusing on the consumption of energy.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; renewable energy Asia-pacific 2017; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 2nd International Conference on Quantum Physics and Nuclear Energy May 15-16, 2017 Munich, Germany; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; Demand Response and Smart Grid CoalitionNational Association of Regulatory Utility CommissionersMid-Atlantic Distributed Resources InitiativeUtility Wind Integration GroupIPSO Alliance

Grid Power Transmission

Power travels from the power plant to the required destination through a system called the power distribution grid. The power to be useful for home or business, it comes from the transmission grid and is stepped-down to the distribution grid. This may happen in several phases. The conversion from "transmission" to "distribution" occurs is in a power substation. It has transformers that step transmission voltages (in the tens or hundreds of thousands of volts range) down to distribution voltages (typically less than 10,000 volts). Since wires extending from Earth's surface to an orbiting satellite are neither practical nor feasible with current technology, SBSP designs include the use of some manner of wireless power transmission.

Electrical power starts flowing from the power plant which consists of a spinning electrical generator. The alternating currents(AC) in power plant are more advantageous than direct currents (DC) as the transformers must compulsorily should possess alternating currents to operate and the power from power distribution grid depends on transformers. Hence AC currents are more in use than DC currents. The three-phase power from generator enters a transmission substation at the power plant which has large transformers to convert the generator voltage to extremely high voltages for long-distance transmission on the transmission grid. This power from transmission grid is stepped-down to the distribution grid n several phases in power substation.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on High Energy Physics Dec 11-12, 2017 Rome, Italy; 2nd World Congress on Wind & Renewable Energy June 21-23, 2017 London, UK; 2nd International Conference on Green Energy & Expo November 28-30, 2016 Atlanta, Georgia, USA; 2nd International Conference on Power and Energy Engineering July 20-21, 2017 Munich, Germany; International Conference on Battery and Fuel Cell Technology December 8-9 | 2016 | Dubai | UAE; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; SMART GRID FORUM, Energy Future CoalitionEuropean Distribution System Operators' Association for Smart GridsEUCGAssociation of Home Appliance ManufacturersThe Solar Electric Power Association (SEPA) and Association for Demand Response and Smart Grid (ADS),

Kuramoto Oscillators

Kuramoto model is the behavior of a large set of coupled oscillators. It is mainly designed with the systems of chemical and biological oscillators. It also has its global applications in neuroscience.  In smart grid architectures there arises a synchronization problem for the network-reduced model of a power system with nontrivial transfer of conductances. Our goal is to exploit the relationship between the power network model and a first-order model of coupled oscillators. Nonuniform Kuramoto oscillators are characterized by multiple time constants, nonhomogeneous coupling, and nonuniform phase shifts. In kuramoto model, each of the oscillators is considered to have its own intrinsic natural frequency and each is coupled equally to all other oscillators. The original analysis of synchronization is accomplished by Kuramoto in the case of mean-field coupling. Analysis of the mean-field KM is made with white noise forcing terms. In power grids if the network is lossless and the voltage levels |Vi| at all nodes i ∈ V1 ∪ V2 are constant, then the maximum real power transfer between any two nodes   i, j ∈ V1 ∪ V2 is aij = |Vi| · |Vj | · =(Yij ), where =(Yij ) denotes the susceptance of the transmission line.

Our "Smart Grid" is providing a platform to speak on Kuramoto Oscillators.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on Nuclear Engineering October 16-18, 2017 Atlanta, USA; 2nd World Congress on Wind Renewable Energy June 21-23, 2017 London, UK; 2nd International Conference on Green Energy & Expo November 28-30, 2016 Atlanta, Georgia, USA; 3rd International Conference and Business Expo on Wireless & Telecommunication July 20-21, 2017 Munich, Germany; International Conference on Battery and Fuel Cell Technology December 8-9 | 2016 | Dubai | UAE; 6th International Conference on Smart Cities and Green ICT Systems        Apr 22, 2017  Porto, Portugal; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; Canadian Electricity Association (CEA)American Public Power AssociationSmart Grid Mexico, National Association of Regulatory Utility CommissionersMid-Atlantic Distributed Resources Initiative, Gridwise Alliance.

Solar Cells

Solar cells are typically named after the semiconducting material from which they are made up of. These materials have the power of absorbing the sunlight. The main application of solar cells is in the space is to provide electric power to the satellites. A solar cell, or photovoltaic cell, is an electrical device that converts the light energy directly into electricity by the photovoltaic effect. The solar cell works when Photons in sunlight hit the solar panel and are absorbed by semiconducting materials like silicon. In solar cells usually silicon is used in two layers, one layer being bonded with boron, the other with phosphorus.

A solar cell has the phenomena of Photoelectric effect or photoemission which is the production of electrons or other free carriers when light falls onto a material. Electrons are emitted and can be called photoelectrons. The materials with the lowest threshold frequencies are all semiconductors. Photovoltaics are the ejected electron travels through the emitting material to enter a solid electrode with the photo emitter instead of traveling through a vacuum to an anode leading to the direct conversion of radiant energy to electrical energy. Photoconductivity defined as an increase in the electrical conductivity of a non-metallic solid when exposed the electromagnetic radiation.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on High Energy Physics Dec 11-12, 2017 Rome,Italy; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 2nd International Conference on Green Energy & Expo November 28-30, 2016 Atlanta, Georgia, USA; 2nd World Congress on Wind Renewable Energy June 21-23, 2017 London, UK; Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; National Electrical Manufacturers AssociationGridwise Alliance,UTC's Smart Network CouncilEuropean Distribution System Operators' Association for Smart Grids,  Energy Future Coalition.

Energy Storage

Grid energy storage also called large-scale energy storageLarge quantities of electrical energy can be stored using pumped hydro or underground compressed air facilities. Smaller quantities of energy can be stored in batteries, flywheels and Superconducting Magnetic Energy Storage (SMES) devices.  In Superconducting magnetic energy storage systems a magnetic field is created by direct current passing through a superconducting coil in which resistive losses are negligible and so the energy stored in the magnetic field does not reduce with time. Energy is stored as electrostatic field in capacitor

Energy storage should be available to industry and regulators as it’s necessary to resolve issues of grid resiliency and reliability. Energy storage should be a well-accepted contributor for realization of smart-grid benefits specifically enabling confident deployment of electric transportation and optimal utilization of demand-side assets. On-Grid Area Renewable increases ratio of renewable generation may cause several issues in the power grid. EV powered by electricity from less or non-fossil energy sources can be made by Off-Grid Area.

We have seen a great response on Energy Storage at Smart Grid conference 2016

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

2nd World Congress on Wind Renewable Energy June 21-23, 2017 London, UK; 3rd International Conference and Business Expo on Wireless Telecommunication July 20-21, 2017 Munich, Germany; Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017 Porto, Portugal ; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; National Association of Regulatory Utility CommissionersEnergy Future CoalitionSmart Grid MexicoAmerican Public Power Association,  EUCG.  

Renewable Energy Resources

Most of the energy sources on Earth originate from the sun which results from the heat escaping from hot rocks below the Earth's surface and from the effects of radioactive decay. The growing diffusion of renewable sources is due to the electrical system. Important source for renewable energy is solar power, wind power, geothermal power and fossil fuels. Major sources of renewable energy include fossil fuels. The most important feature of renewable energy is that it can be harnessed without the release of harmful pollutants. As these resources begin to supply of power to the grid, integrating them into grid operations is becoming increasingly difficult. Hence, there is a need for the development of a highly reliable, self-regulating and efficient grid system which allows the integration of renewable distributed power generation.

Power Quality Instrumentation and Measurement can be easy for distributed and Renewable Environments. Non-hydro renewable annual electricity generation has more than doubled by the usage of renewable resources. Hydropower produced nearly half of total renewable electricity generation has doubled.

Previous Smart Grid conferences 2016 explained the importance of renewable energy resources and it’s conversation as well.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on High Energy Physics Dec 11-12, 2017 Rome,Italy; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 2nd World Congress on Wind Renewable Energy June 21-23, 2017 London, UK; Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; American Public Power Association,  Demand Response and Smart Grid CoalitionEnergy Future CoalitionEuropean Distribution System Operators' Association for Smart Grids, Canadian Electricity Association (CEA).

Power Meters

Major concern for the utilities is Electricity theft. Power plants – coal, natural gas, petroleum or nuclear stuff is burned to release heat, which boils water into steam, which spins a turbine, which generates electricity. In thermodynamic limits only two-thirds of the energy in the raw materials actually makes it onto the grid in the form of electricity. Various "smart grid" systems have dual functions. This includes Advanced Metering Infrastructure systems which, when used with various software can be used to detect power theft and by process of elimination, detect where equipment failures have taken place. These are in addition to their primary functions of eliminating the need for human meter reading and measuring the time-of-use of electricity. The behaviour of electricity stealing not only makes the power industry suffering huge financial losses but also threatens the main power supply security and reliability. Un-hooking technology will lead to the electricity stealing. Through GSM technology, the distribution code is sent to substation the operator can instantly attend the pole and through the microcomputer and can get meter code from where the power has been theft. Hence the theft can immediately stopped at the place which it is happening.

Power Loss from a grid discuss about Smart Grid conferences

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; International Conference on High Energy Physics Dec 11-12, 2017 Rome, Italy; renewable energy Asia-pacific 2017; 2nd International Conference on Quantum Physics and Nuclear Energy May 15-16, 2017 Munich, Germany; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 6th International Conference on Smart Cities and Green ICT Systems  Apr 22, 2017  Porto, Portugal; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; Green Button Alliance, National Electrical Manufacturers AssociationAmerican Public Power Association,  Gridwise Alliance,UTC's Smart Network Council.

Smart Appliances

Overall view of a smart grid to deliver electricity from suppliers to consumers using digital technology to save energy, reduce cost and increase reliability and transparency. Because of low cost, flexible and redundant architecture and fast response time, cloud computing has the functionality to provide the security, interoperability and performance required for large-scale smart grid applications. Smart-grid-like applications are not easily replicable.

For Demand Response grid automatically response to adjust electricity use depending on price or carbon intensity. One of smart Appliance is a special monitoring circuit that can detect when the grid is under stress from temporary overload and with the application of response it reduce its energy for a short time and allow the grid to recover. In networkable appliances it will have the ability to communicate electronically with energy management systems either wireless or by signals that travel on the power connection and this is called power line carrier communication.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; renewable energy Asia-pacific 2017; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 2nd International Conference on Quantum Physics and Nuclear Energy May 15-16, 2017 Munich, Germany; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; SMART GRID FORUM, European Distribution System Operators' Association for Smart GridsEUCG,Association of Home Appliance ManufacturersThe Solar Electric Power Association (SEPA) and Association for Demand Response and Smart Grid (ADS).

Cybersecurity

Cybersecurity enhances the security and reliability of country’s electric grid. Electricity Delivery and Energy Reliability are the major keys to enhance the reliability and resilience of the nation's energy infrastructure. Cybersecurity of energy delivery systems is critical for protecting the energy infrastructure and the integral function. Energy Reliability designed the Cybersecurity for Energy Delivery Systems (CEDS) program to assist the energy sector asset owners (electric, oil, and gas) by developing cybersecurity solutions for energy delivery systems through integrated planning. Energy delivery systems are the backbone of energy sector. Cybersecurity is encouraged as to be reflexive.

The major role of Cyber security was explained well at Smart Grid conferences 2016

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

renewable energy Asia-pacific 2017; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 2nd International Conference on Power and Energy Engineering July 20-21, 2017 Munich, Germany; International Conference on Nuclear Engineering October 16-18, 2017 Atlanta, USA; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017 Porto, Portugal; European Distribution System Operators' Association for Smart GridsCanadian Electricity Association (CEA), Utility Wind Integration GroupIPSO AllianceSmart Grid MexicoGridwise Alliance.

Cloud Computing

Cloud Computing is an on-demand network access to configurable computing resources such as networks, servers, storage, applications, and services that can be rapidly released with management effort or service provider interaction. It has a characteristic of Ubiquitous Network Access. Smart Grid applications in Cloud Computing (CC) model can be done by Computational requirements. Flexible resources and services shared in network, parallel processing and omnipresent access are some features of Cloud Computing that are used for Smart Grid applications. Master-Slave architected (without clouds) could cause Cyber-attacks. Cloud technology will help in adopting a feasible solution for multisensorial consumer specific operations. Bringing cloud to smart grid will add an optimal influence and substantial improvements in the performance of the whole grid for the current existing computing and storage capabilities. Cloud Computing for Smart Grid applications is also defined in terms of efficiency, security and usability. “Data as a Service” model will enable Department of Energy to continuously monitor the health and performance of the Smart Grid and to support energy management decisions quickly and accurately.

Cloud Computing can discuss and invent a proper method for Smart Grid conferences

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

2nd International Conference on Green Energy Expo November 28-30, 2016 Atlanta, Georgia, USA; 2nd World Congress on Wind Renewable Energy June 21-23, 2017 London, UK; 3rd International Conference and Business Expo on Wireless Telecommunication July 20-21, 2017 Munich, Germany; 2nd International Conference on Power and Energy Engineering July 20-21, 2017 Munich, Germany; International Conference on Battery and Fuel Cell Technology December 8-9 | 2016 | Dubai | UAE; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; National Electrical Manufacturers AssociationDemand Response and Smart Grid Coalition, Mid-Atlantic Distributed Resources InitiativeEUCG, Canadian Electricity Association (CEA).

Future Trends and Advances

Smart-metering will become a standard in consumer data. Conservation of energy will be higher. Electricity Pricing and Equity is concerned upon the rise of renewable energy sources, increased grid complexity which changed the consumer demands, and volatile fossil-fuel costs. Technological changes are being driven by the introduction of enhanced technologies like power electronics, Distributed generation (DB), Micro grids, Digital protection co-ordination, supervisory control, and energy management.

Power Patrol, can provide benefits that supports the trends along by providing valuable visibility on energy management.Since sensors will have a more vital role in providing data high accuracy is critical. Host DG sources and electric vehicles are important in developing future smart grids. Next-generation distribution networks need active distribution management (ADM) which shows the recent development in ADM technologies and methods. Distribution networks decentralize the management framework, where equipment can be autonomous.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on High Energy Physics Dec 11-12, 2017 Rome,Italy; renewable energy asia-pacific 2017; 2nd International Conference on Power and Energy Engineering July 20-21, 2017 Munich, Germany; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 6th International Conference on Photonics July 31- August 01, 2017 Milan, Italy; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal ; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; Smart Grid Mexico, American Public Power Association, SMART GRID FORUMNational Association of Regulatory Utility CommissionersGreen Button Alliance.

Smart Grid Industry

We can say Smart Grid as “A Global Strategic Business Report” for the power supply to any specific destionations as required by the consumers for their needy. As per industry norms much of power generation is due to the Wind and by the Solar Power and also the output power from the grid is accurate than other resources. The investment spent will be smart by the renewable resources and can gain a good reliable electricity from a smart grid according to the previous statistics.

Grid can also be defined as a subset of Big Data analytics solutions used specifically for energy needs. Its main aim is to optimize their efficiency and minimize losses occurring in electricity generation and distribution of power supply. Based on the end-users, the market for smart grid data analytics is segmented into small & medium enterprises, large enterprises, and public sector entities.

Related Power energy Conferences | Renewable resource conferences | Solar energy conferences | Power grid conferences

International Conference on High Energy Physics Dec 11-12, 2017 Rome,Italy; 3rd International Conference on Green Energy and Expo September 28-29, 2017 Berlin, Germany; 2nd International Conference on Green Energy Expo November 28-30, 2016 Atlanta, Georgia, USA; 2nd World Congress on Wind Renewable Energy June 21-23, 2017 London, UK; Global Solar Energy Summit July 10-12, 2017 Madrid, Spain; 2nd International Conference on Renewable Energy and Smart Grid (ICRESG 2017) Ei&Scopus Mar 24, 2017 Shanghai, China; 2017 IEEE International Conference on Smart Grid and Smart Cities Jul 23, 2017 Singapore; 6th International Conference on Smart Cities and Green ICT Systems Apr 22, 2017  Porto, Portugal; 1st EAI International Conference on Smart Grid Assisted Internet of Things (SGIoT 2017) July 11 2017 Sault Ste. Marie, Ontario, Canada; 3rd ACM Cyber‐Physical System Security Workshop Apr 2, 2017  Abu Dhabi, UAE; Canadian Electricity Association (CEA)American Public Power AssociationSmart Grid Mexico, National Association of Regulatory Utility CommissionersMid-Atlantic Distributed Resources Initiative, Gridwise Alliance.

Market Analysis

Smart Grid Regional Forecast 2013-2020

GTM Research forecasts the progressive value of the smart grid market to surpass $400 billion by 2020, growing with an average compound yearly growth rate of over 8%. This new report examines the global smart grid market from the prospect of growth and market share of technologies and services, featuring a top-down and bottom-up financial forecast along with highlights of regional trends, analysis and chance across the world’s established and emerging smart grid markets. By examining the crucial markets and technologies, the report identifies the biggest growth opportunities for the next 8 years and those markets which are most impressive to investors and utility vendors.   

This recent report examines the deployment of smart grid technologies and resources globally from the perspective of growth and market share highlight comprehensive economic forecasts along with highlights of regional trends, analysis, and opportunity across inaugurated and emerging smart grid markets. By surveying the major markets and technologies from a comparative perspective, GTM Research recognizes the most attractive developing opportunities for investors and utility vendors over the next eight years.

The five key topologies of North America, Europe, Asia-Pacific, China and Latin America, with in-depth forecasting on each area from 2013 through 2020, depend on the key metrics of market segment value, per cent share of the overall smart grid market, and compound average growth rate (CAGR).

 

 

Past Conference Report

In the presence of inter professional scholars, researchers and industrials involved in the development of high quality education and production in all aspects of research and development skills, ConferenceSeries Ltd hosted the International Conference on Power and Energy Engineering during September 29-30, 2016 in London, UK.

Power Engineering-2016 received generous response from various panel of key members of the Power and Energy community from industry, research lab, academia and financial investment practisers who discussed the future of power generation and energy utilization. This event was really focused for the furtherance of energy industries and the modern technologies to enhance the research and development of the versatile field of Power Engineering.

Concentrating on Power Electronics, Power System, Power Generation Technologies, Energy Generation and Utilization, Energy Audit, Energy Economics, Renewable Energy and Smart Grid, the two days of discussions assisted professionals to gain an insight into the current technologies, innovations and boundless networking opportunities.

Power Engineering-2016 Organizing Committee would like to thank the Moderator of the conference, Dr. Albana Alo, Vienna University of Technology who contributed a lot for the smooth functioning of this event. The highlights of the meeting were the eponymous lectures, delivered by Gavin K Gillmore Kingston University, UK, Jian Wang, Kingston University, UK, Bing Wang from Tsinghua University, China, Rikiya Abe, University of Tokyo, Japan. These talks were of great interest to the power and energy engineering sector professionals and were extremely informative.

International Conference on Power and Energy Engineering was a grand success with the support of international multi-specialized steering committee and synchronized by the Journal of Nuclear Energy Science & Power Generation TechnologyInnovative Energy & ResearchJournal of Fundamentals of Renewable Energy and Applications, and Journal of Electrical & Electronic Systems. We are happy to move forward for the next conference of our 1st International Conference on Smart Grid Technologies which will be held during September 11-12, 2017 in Singapore. Hope we expect the same support and make the Smart Grid Conference a Grand Success.

About Conference


Smart Grids convention 2017 welcomes attendees, presenters, and exhibitors across the world to Singapore. We are delighted to invite you all to attend and register for the “1st International Conference on Smart Grid Technologies” (Smart Grid convention 2017) which is going to be held during September 11-12, 2017 Singapore.

The organizing committee is gearing up for an exciting and informative 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 Smart Grids convention 2017, where you will be sure to have a meaningful experience with scholars across the world. All members of the Smart Grids convention 2017 organizing committee look forward to meeting you in Singapore. ConferenceSeries LLC organizes a conference series of 1000+ Global Events inclusive of 300+ Conferences, 500+ Upcoming and Previous Symposiums and Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publish 700+ Open access journals which contains over 30000 eminent personalities, reputed scientists as editorial board members.

Summary:

The increasing trend in Smart Technologies and their necessity in our day to day life have extended in to the field of power distribution and Grid technologies giving rise to the concept of Smart Grid. Smart grid generally refers to a class of technology people are using to bring utility electricity delivery systems into the 21st century, using computer-based remote control and automation. These systems are made possible by two-way communication technology and computer processing that has been used for decades in other industries. They are beginning to be used on electricity networks, from the power plants and wind farms all the way to the consumers of electricity in homes and businesses. They offer many benefits to utilities and consumers -- mostly seen in big improvements in energy efficiency on the electricity grid and in the energy users’ homes and offices.

For a century, utility companies have had to send workers out to gather much of the data needed to provide electricity. The workers read meters, look for broken equipment and measure voltage, for example. Most of the devices utilities use to deliver electricity have yet to be automated and computerized. Now, many options and products are being made available to the electricity industry to modernize it.

The “grid” amounts to the networks that carry electricity from the plants where it is generated to consumers. The grid includes wires, substations, transformers, switches and much more. smart grid means “computerizing” the electric utility grid. It includes adding two-way digital communication technology to devices associated with the grid. Each device on the network can be given sensors to gather data (power meters, voltage sensors, fault detectors, etc.), plus two-way digital communication between the device in the field and the utility’s network operations centres. A key feature of the smart grid is automation technology that lets the utility adjust and control each individual device or millions of devices from a central location.

The number of applications that can be used on the smart grid once the data communications technology is deployed is growing very fast.

Benefits of Smart Grid:

  • Enhanced cyber-security
  • Integration of Renewable Energy sources into the Grid.
  • Integrating electric vehicles onto the grid.
  • It equips the grid to meet increasing demand.
  • Decreases power blackouts and surges.
  • It facilities real-time trouble shooting.
  • Reduction of expenses to energy producers.

Why to attend:

With members from around the world focused on learning about Smart Grid Technologies, this is your single best opportunity to reach the largest assemblage of participants from all over the world. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 2-day event.

Meet World-renowned speakers, learn and share the most recent techniques, Theories and technologies in the field of Electrical engineering and Grid technologies. Smart Grids -2017 is an exciting opportunity to showcase the new technology, the new products of your company, and/or the service your industry may offer to a broad international audience. It covers a lot of topics and it will be a nice platform to showcase their recent researches on Smart Grids and other interesting topics.

Target Audience:

  • Academicians
  • Directors/CEO.
  • Managers/Engineers.
  • Professors
  • Researchers from top universities
  • Scientists from top research institutes
  • Scholars
  • Electronics and Electrical Engineers
  • Telecommunication professionals
  • Manufacturer of electronics and electrical devices.
  • Students
  • Training Institutes

To Collaborate Scientific Professionals around the World

Conference Date September 11-12, 2017

For Sponsors & Exhibitors

[email protected]

Speaker Opportunity

Day 1 Day 2

Supported By

Journal of Electrical Engineering and Electronic Technology Journal of Nuclear Energy Science & Power Generation Technology Journal of Electrical & Electronic Systems

All accepted abstracts will be published in respective Conferenceseries International Journals.

Abstracts will be provided with Digital Object Identifier by


Past Affiliations

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Keytopics

  • Actuators
  • Big Data
  • Bio Gas
  • Bio-Oil Engine
  • Biodiesel
  • Bioenergy
  • Biofuel
  • Biomass
  • Black Hole
  • Carbon And Hydrogen Capture
  • Charging Station
  • Cloud Computing
  • CO2 Sequestration
  • Coal
  • Combustion
  • Control Systems
  • Conventional Energy
  • Cyber Security
  • DC/AC Inverters
  • Diesel Engine
  • Digital Signal Processing
  • Eddy Currents
  • Electric Bus
  • Electric Grid
  • Electric Motors
  • Electric Vehicles
  • Electricity Generators
  • Electronic Waste
  • Energy
  • Energy Consumption
  • Energy Efficiency
  • Energy Management
  • Energy Pricing
  • Energy Security
  • Energy Storage
  • Filters
  • Flow Batteries
  • Fossil Fuels
  • Free Energy
  • Frequency And Voltage
  • Fuel Properties
  • Gas Turbine Engines
  • Geothermal Energy
  • Green Energy
  • Greenhouse Gas
  • Grid Codes
  • Grid Electricity
  • Hybrid Circuit Breakers
  • Hybrid Electric Vehicles
  • Hydro Power Energy
  • Micro Grid
  • Natural Gas
  • Non-renewable Energy
  • Nuclear Energy
  • Offshore Wind
  • Oil Energy
  • Optimization
  • Photovoltaic
  • Piezoelectricity
  • Power Converter
  • Power Distribution
  • Power Electronics
  • Power Grid
  • Power Lines
  • Power Plants
  • Power-to-Gas
  • Protocols
  • Reliability
  • Renewable Energy
  • Routers
  • S Transform
  • Semiconductor Devices
  • Sensors
  • Smart Cities
  • Smart Grid
  • Smart Meters
  • Solar Energy
  • Solar Heaters
  • Solar Panels
  • Solar Photovoltaic
  • Solar Power Plant
  • Supercapacitors
  • Telecommunication Networks
  • Thermal Analysis
  • Tidal Energy
  • Transmission Lines
  • Velocity Control
  • Vibrational Energy
  • Voltage
  • Waste To Energy
  • Wind Energy
  • Wind Mills
  • Wind Turbines
  • Wireless LAN
  • Wireless Transmission
  • Zero Energy
  • Zero Fuel
  • Zigbee