Abstract
An innovative and completely different wind-energy conversion system is studied where a centralized electricity generation within a wind farm is proposed by means of a hydraulic network. This paper presents the dynamic interaction of two turbines when they are coupled to the same hydraulic network. Due to the stochastic nature of the wind and wake interaction effects between turbines, the operating parameters (i.e. pitch angle, rotor speed) of each turbine are different. Time domain simulations, including the main turbine dynamics and laminar transient flow in pipelines, are used to evaluate the efficiency and rotor speed stability of the hydraulic system. It is shown that a passive control of the rotor speed, as proposed in previous work for a single hydraulic turbine, has strong limitations in terms of performance for more than one turbine coupled to the same hydraulic network. It is concluded that in order to connect several turbines, a passive control strategy of the rotor speed is not sufficient and a hydraulic network with constant pressure is suggested. However, a constant pressure network requires the addition of active control at the hydraulic motors and spear valves, increasing the complexity of the initial concept. Further work needs to be done to incorporate an active control strategy and evaluate the feasibility of the constant pressure hydraulic network.
Highlights
An innovative and completely different wind-energy conversion system is studied in this paper
Model 1 considers independent pipelines and nozzles for both turbines; model 2 connects the parallel lines to a common line and nozzle; model 3 uses the same configurations as the previous model but with an increased nozzle diameter
Centralized generation is possible by using water pipelines in fluid power network for the collection and transmission of pressurized water from the individual turbines
Summary
An innovative and completely different wind-energy conversion system is studied in this paper. By means of a hydraulic network, a centralized electricity generation within a wind farm is proposed [2]. Results showed that a variable speed operation of the rotor is possible through a passive control method using a nozzle at the end of the water pipeline. It is uncertain if the same passive control method will be sufficient for cases in which multiple turbines are connected to the same hydraulic network. The second one considers that the water pipelines from individual turbines are connected through a common line to a single nozzle, see figure 3
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