Smart Grid and Enabling Technologies. Frede Blaabjerg
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Название: Smart Grid and Enabling Technologies

Автор: Frede Blaabjerg

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119422457

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СКАЧАТЬ 2.15. The IRENA estimates that solar PV capacity could increase to 1760 GW in 2030; reaching this capacity by 2030 needs an average yearly rise of a total capacity of 15%. IRENA approximates that solar PV might be responsible for 7% of global electrical energy generation by 2030 [11].

Schematic illustration of global integrated solar PV capacity from 2000 to 2019. Schematic illustration of solar PV global capacity by top 10 countries in 2019.

      2.2.5.2 Concentrated Solar Power

      Concentrated Solar Power (CSP) is a power generation technology that uses mirrors or lenses to direct sunlight onto a receiver, which gathers and transmits the solar energy to a heat transfer fluid that could be utilized to supply heat for end‐use applications or to heat a fluid and generate steam. The steam turns the turbine and produces energy just like traditional power plants. Huge CSP plants could possess a heat storage system to produce electrical power even in the presence of clouds or at sunset. This allows for the generation of dispatchable electricity, which could facilitate grid integration and economic competitiveness. Furthermore, CSP technology can easily be integrated into fossil fuel‐based power plants that utilize traditional steam turbines to generate electrical power, whereby the part of the steam generated by the combustion of fossil fuels is replaced by heat from the CSP plant. While CSP plants generated mainly electrical power, they also generate high‐temperature heat that could be utilized for industrial processes, space heating (and cooling), and heat‐based water desalination processes. Moreover, CSP plants could be utilized to generate steam to inject into mature and dense oil fields for thermal enhanced oil recovery, [46].

Schematic illustration of pV shares of grid-connected (distributed and centralized) and off-grid installations, 2006–2016. Schematic illustration of global installed concentrating solar power capacity, 2000–2019.

      Even although CSP costs experienced a substantial decrease, CSP employment has been hindered due to fast and significant declines in the cost of solar PV. In numerous countries, research and industry are working to enhance CSP performance and decrease its costs by focusing on: cost reductions in important CSP components (collectors for instance); other applications of CSP; efficiency of the heat transfer process and increasing the value of CPS by implementing thermal energy storage (TES) systems, which allows CSP facilities to deliver dispatchable power [49].

      2.2.5.3 Solar Thermal Heating and Cooling

      STS transforms sun‐oriented radiation into heat. These frameworks are utilized to raise the temperature of a heat transfer fluid, which can be used to generate energy. The hot liquid can be utilized straightforwardly for hot water requirements or space heating/cooling needs, or a heat exchanger can be utilized to exchange the heat to the ultimate application. The heat produced can, moreover, be put away in a legitimate storage tank for utilization within the hours when the sun is not accessible. The sun powered collector is the key component of an STS.

Schematic illustration of concentrating solar power capacity in the top 10 countries in 2016.

      2.2.6 Wind Energy

      Wind СКАЧАТЬ