Smart Grid and Enabling Technologies. Frede Blaabjerg. Читать онлайн. Newlib. NEWLIB.NET

Автор: Frede Blaabjerg
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Физика
Год издания: 0
isbn: 9781119422457
Скачать книгу
rel="nofollow" href="#fb3_img_img_67df4a3c-dab4-5c56-9518-f10556fc110f.gif" alt="Schematic illustration of the fundamentals of electric power system."/>

      1.2.2 Electric Power Transmission

      1.2.3 Electric Power Distribution

Schematic illustration of the selection of rated voltage for three-phase AC transmission line. Schematic illustrations of main types used in electric power distribution, (a) Redial feeder system. (b) Ring main feeder. (c) Meshed system. (d) Parallel feeder system.

      Developing real‐time control, supervision, and monitoring systems with a smart protection system is essential to optimize the production and consumption of electricity, to improve the overall efficiency, and to ensure the grid's reliability. The challenge is that several new generation sources must randomly connect and disconnect seamlessly with the distribution grid. Moreover, controlling a large number of different sources with different characteristics is of the utmost importance due to the possibility of conflicting requirements and limited communication resources [12]. Those are essential challenges for transforming the current grid into an SG. Other challenges before implementing the SG could be as follows:

      1.3.1 Lack of Circuit Capacity and Aging Assets

      In many locations worldwide, the power system has extended widely since the 1950s and the distribution and transmission equipment are now beyond the expected lifetime and require replacement. The capital costs of like‐for‐like change are very high. A typical large‐scale utility may require hundreds of billions of dollars to fully modernize the whole grid's infrastructure, which is an overrated cost and should decrease gradually over time. The practical solution is to transform this overstrained infrastructure into an SG, which may even take 20 years or more.

      1.3.2 Operation Constraints

Schematic illustration of traditional power grid.

      1.3.3 Self‐Healing Grid

      Nowadays, society needs a growing reliable electricity supply as crucial loads are increasingly connected. The conventional approach is to add more redundant systems, at a considerable environmental impact and capital cost. No action has been needed to maintain supply after a fault other than disconnecting the faulty circuit. The SG paradigm allows for distributed renewable energy generation and intelligent post‐fault reconfiguration and self‐healing for sustained electricity supply at significantly reduced cost [14]. Better utilization of assets can be achieved with SG at fewer redundant circuits, lower cost, and higher efficiency.

      1.3.4 Respond to National Initiatives

      Many agencies and policy makers are promoting SG initiatives as cost‐effective solutions for modernizing their power systems while activating the deployment of low‐carbon energy resources. Advancements of the SG can be noticed in a number of countries. Governments are aware that the SG principle is able to mitigate various