Many know that the existing energy reserves of economically, ecologically and socially sustainable. This is exacerbated is predominantly on frequent delivery of safety in the use of conventional fossil fuels due to the increasing concern about the emissions of greenhouse gases, which doubled in size by the year 2050. Low-carbon and sustainable energy revolution must take place, and itntelligent grid, with the associated technologies play an important role in ensuring that this happens.
The new Mesh is more than just the modernization of the existing infrastructure for power transmission and distribution to end users. Smart Grid is an array of technologies, the Integration of various technological systems: from communication, new metering technology, the improvement of the technology of the storage and use of Low-Carbon technologies. Some of them exist already and equipped for adaptation to both existing and new systems of energy supply and infrastructure.
The understanding of the technology of the Smart Grid
In order to understand these technologies and what they can do, you should approach from two different points of view: one from a purely technological point of view, while others focus on functionality. Technically, intellectual power, or the Integration of the digital Overlay connection on the existing network energy: with the switch, the feeling of guilt, and intelligent devices for end users.
With the point of view of functionality, Smart-Grid, several objectives, which include: relationship and трансактивной coordination includes distributed resources, including the Integration of renewable energy; automation Distribution System; dynamic pricing and the appropriate response to the demand; and the ability for the end user, either the consumer or the manufacturer, or even both. Here are some of the Smart-Grid technologies and ways of creating more value for the System are so optimized, decentralized, but highly professional and well-coordinated energy supply and demand systems which go beyond what traditional people know about the usefulness of the consumer to install.
The latest Trends in the Smart development of Grid-technologies
Most of the existing power grids in the United States, for example, in California, there are more than a hundred years. With new challenges in the area of energy supply and demand, the Situation of the problems has been exacerbated by the threats of global warming and other environment, it is important that these networks will be modernized, resulting in more efficient, more reliable, safer, interoperable and more affordable electrical grid.
The large-scale modernisation of old networks are to be prepared in the development, and gradually shifts to new Trends and developments in the field of smart Grid technologies that are available. The global Smart Grid market is at $22.8 billion in the last year, in the year 2011, but, as expected, jumping up to $80,6 billion in 2016, as new technologies are introduced, ensure, and fulfil the requirements for smart grids and the reliability, stability and reduced electrical rates.
Some of these new technologies involves the activation of the network in the Region (new Updates Mesh Khan). This allows users with the use of real-time Monitoring information about their Smart meters and the latest Apps data, such as the green button and the Smart Thermostat. Other technologies for “intelligent” networks for the monitoring, cloud Computing, travel Management System (OMS), vehicle to grid (v2g), microgrids and other integrated technologies.
Smart Grid Perspectives
With great momentum in the deployment of smart grids, the market is expected to continue double-digit increases in the coming years. A survey out of Zpryme indicates that 8 convinced of 10 executives in the industry that investments in smart grids will be continued up to the year 2012 and the following years. Many believe that intelligent networks-this is the only rational and effective long-term effect, which may combine and manage all government regulation, Integration of renewable energies, the control of the emissions of carbon and other complex, fast-changing requirements of the market energy.