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  • R03 Carbon battery.Grid-connected wind turbine technical knowledge

    Time:2024.12.06Browse:0

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      In recent years, the world's wind turbines have developed very rapidly, with their capacity increasing at a rate of 30% every year. According to the latest statistics, the world's installed wind turbine capacity in 1998 was 9839MW, an increase of 29.6% from 7588MW in 1997. In April 1999, the installed capacity of wind turbines worldwide exceeded 10,000 MW.

      1. The main regulating technologies for wind turbines currently on the world market

      1.1 Home pitch regulation wind turbine technology (Stallregulation)

      This technology is the core of the so-called typical Danish wind power technology. Its basic principle is to utilize the stall characteristics of the blade airfoil itself. Its advantages are: the adjustment is simple and reliable, and the control can be greatly simplified; its disadvantages are: the stress on main stress-bearing components such as blades, hubs, and towers increases.

      Nowadays, most of the 600kW and above units in the world still use this technology. Famous manufacturers such as MFG-MICON, BONUS, and NORDEX all use this technology.

      1.2 The main representative of variable pitch wind turbine technology (Pitchregulation) is Vestas.

      The main advantages of variable pitch adjustment are: the blades are less stressed, the blades can be made lighter, and the structural components of the wind turbine can be made lighter; its disadvantages are: the structure is complex.

      1.3 Active pitch regulation technology (Active stall regulation)

      This adjustment method is a combination of the two aforementioned methods. At present, several major international wind turbine manufacturers, such as MFGMICON, BONUS, etc., all use this technology for wind turbines larger than 600kW. The main benefits of this adjustment method are: it has the characteristics of the fixed pitch adjustment method, the output power changes little, and the wheel is stable.

      1.4 Variable speed constant frequency (Viarablespeed)

      This adjustment method is theoretically the optimal adjustment method. The manufacturers currently using this technology are mainly Enercon of Germany and Largeway of the Netherlands.

      This adjustment method can maximize efficiency before the output power drops below the rated power. But when the output power is greater than the rated power, that is, the wind speed is greater than the rated wind speed, the adjustment method is the same as the pitch method. Constant frequency devices are expensive, which is why this technology is only widely used in Germany and is rarely used in other countries.

      2 Main trends in the current development of wind turbine technology in the world

      Since onshore wind turbines are restricted by transportation, installation and other conditions, a single unit capacity of 2MW is the limit for the development of wind turbines. This is mainly because after the wind turbine capacity reaches 2MW, the blade length will reach 60-70m, making land transportation extremely difficult and installation The crane capacity used will exceed 1200-1400t. Cranes with this capacity are basically unavailable in other regions except in developed areas such as Europe and the United States (where there are only a few units). At the same time, in developed areas such as Western Europe, the population is relatively dense and the locations for installing wind turbines are greatly restricted. People naturally focus on offshore wind farms. In order to adapt to the development of offshore wind farms, the European Union released the 2000-2010 Energy White Paper in Amsterdam in June 1999, which included the development of wind turbines with a capacity of 3-5MW as one of its priorities.

      Many universities, research institutes, and manufacturers in Europe have introduced various new offshore wind turbine concepts. Among them, the most widely noticed is the wind turbine that combines the following technologies: 3 blades, downwind direction; no gearbox; multi-pole generator and wind turbine Wheel direct connection; airfoil tower (wind tower); steering system at the bottom of the tower; variable speed constant frequency, etc.

      The main features of 3-5MW offshore wind turbines are: transportation problems can be directly transported by sea (the manufacturing plant is located on the seaside), and installation can be solved by large-capacity offshore floating cranes. Offshore floating cranes have large capacities, and floating cranes exceeding 1,500t are common.

      Usually, the cost structure of an onshore wind farm is: wind turbines account for about 70%, and infrastructure (basic power grids, roads, etc.) account for about 30%. The cost structure of offshore wind farms is about 30% for wind turbines and about 70% for infrastructure (foundation, submarine cables, etc.). However, due to the good wind resources of offshore wind farms, the annual power generation can be 50% higher than that of onshore wind farms. At the same time, due to the adoption of the above new technologies, large-capacity offshore wind turbines have reduced costs, increased operational reliability, and reduced operating costs, so that the cost of power generation can be equal to or lower than that of onshore wind farms.

      3 Current development status and gaps of wind turbine technology in my country

      The current status of wind turbine technology development in my country is: 200kW/250kW wind turbines with independent intellectual property rights have been successfully developed with the support of the Ministry of Science and Technology.

      The successful development of this unit marks the technical success of the fixed-pitch stall-adjustable wind turbine. The capacity of this type of wind turbine can be expanded to 750kW.

      In addition, Xinjiang Wind Energy Corporation has introduced German Jacobs 600kW technology (also a fixed-pitch stall-adjustable type) and is in the process of localizing components. The first batch of 2 units has a localization rate of 40% (including towers and nacelles), and the localization of generators, gearboxes, and controllers is in progress.

      Two joint ventures (Nordex and MADE) are introducing 300kW/600kW wind turbine technology, both of which are wind turbines with fixed pitch stall regulation.

      In the mid-1980s, my country developed 20kW, 30kW, 40kW and 50kW wind turbines with variable pitch adjustment. Due to the low level of mechanical foundation and regulation and control in my country at that time, the reliability of the units developed was poor, especially the variable pitch system with a high failure rate. The units often broke down and were basically out of service by the end of the 1980s, without industrialization.

      4 Conclusion

      my country's wind turbine technology development is still at a low level. Currently, my country has only mastered one of several popular wind turbine technologies in the world. The other three technologies, namely active stall adjustment, variable pitch adjustment and variable speed constant frequency adjustment, are not involved, let alone offshore wind turbines with a capacity of 3-5MW. Judging from the current world development trends, wind turbines with a capacity less than 750kW can still use fixed pitch stall adjustment technology, while wind turbines with a capacity greater than 750kW mostly use active stall adjustment, variable pitch adjustment and variable speed constant frequency adjustment technology. Therefore, our country should carry out research on these technologies during the Tenth Five-Year Plan period.


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