The purpose of the work is to analyse the control system of small hydropower plants. During this operation, the islanding operation and the grid connection will be controlled by the scheme. Micro-hydro-electric power is an efficient and astonishing form of a clean source of renewable energy.
It is a super method of using renewable energy from small rivers. It can only be built on the type of river due to the requirement of a reservoir for power turbine. The water is passed directly through the turbine and it will pass continuously so that we can also be used for other purposes.
Hydropower plant can be discharged in three parts, controllers, hydro servo systems and hydro turbines. The additives of these parts, called hydro-turbine governors, which are connected to the synchronous generator to run the shaft generated by the turbine's mechanical energy, are converted into electrical energy. This arrangement is giving power to the mutual electrical 3-stage parallel RLC load. Modules are designed on Simulink.
Biology for Computer Engineers Course Handout.pptx
Analysis of control systems of small hydro power plant on islanding operation and distribution network connection operation
1. ANALYSIS OF CONTROL SYSTEMS OF SMALL HYDRO POWER
PLANT ON ISLANDING OPERATION AND DISTRIBUTION
NETWORK CONNECTION OPERATION
Himanshu Paghdal
(232825)
2. Outlines
• About work
• Background
• Hydro power plants - General layout, Islanding
• Field test results, demand curve behaviour
• Simulation
• Simulation results
• Conclusion
• Future work
• References
3. About work
• To identify analysis, implementation and test model of
hydro systems in power plants with research studies and
simulations.
• Identify the characteristics importance to be look on the
models in order to create the low frequency interaction
between the electric power system and the hydraulic system.
• The work should be limited to Francis turbine and others
objectives.
4. Background
• “Turbine and Hydropower Modelling” - SINTEF Energy Research
• Considering an ideal turbine and ignoring the elasticity of the conduit
system.
• These models only reflect part of the real satiations and as such could
have a limited application.
• Today is clean energy-saving energy.
• For that, we will go to a destructive coal plant and only generate
electricity, which is actually environmentally friendly and meets the
demand for electricity.
7. Field Tests Results of small hydropower plant
• Hydropower Station with three Francis
Turbines built in Brazil used to
evaluate the model and to calculate
the parameters.
• The optimal operation conditions are:
Speed: 450 rpm
Power: 32.37 MW
Flow rate: 21.0 m3/s
Net head: 168 m.
16. Conclusions
• This function connects the non-linear model analysis with primary control
system optimization. This can define the model's validation, objectives and
controller's dimensions.
• The model's parameters can be calculated based on the actual hydropower
plant running with a turbine, which is satisfactorily cheaper. They show
flow, power and speed less than 1percent. These deviations have been
estimated on model parameters. The analysis shows that the PI controller
represents the best performance index.
• The reaction of the PI Controller Plant model to the actual demand turn
represents the behaviour in sustainability measures for this type of power
plant and the mechanical power demands the power of demand.
17. Future work
• In future demand, the demonstration of this system can be prepared
more efficiently, and some regulatory block systems can show adverts
in the ad by reactivating power control. Devices will be integrated into
modelling, which can be extended to the system’s capabilities.
• It will be possible to measure the future near real-life power plants.
• Integrate Hydraulic System Models in Dynamic Power System
Simulation Model with the intention to study by possible low-
frequency counteraction.
18. References
• Auwal Abubakar Usman, Rabiu Aliyu Abdulkadir, MODELLING AND SIMULATION
OF MICRO HYDRO POWER PLANT,ISSN 2348-7550.
• Hasmaini Mohamada, Hazlie Mokhlisa, Ab Halim Abu Bakara, Hew Wooi Pinga A
review on islanding operation and control for distribution network connected
with small hydro power plant, Renewable and Sustainable Energy Reviews 15
(2011) 3952–3962.
• DTI. 2005, Islanded operation of distribution networks.
• X. Ding, Synchronized Phasor Measurement and Islanding Operation of
Distributed Generation, Doctor of Philosophy, Faculty of Engineering, The
Queen’s University Belfast, 2006.
• Lin G, Junrong X, Yiping D. Analysis of power system frequency responses with
hydro turbines incorporating load shedding. In: 2010, the 5th IEEE Conference on
Industrial Electronics and Applications (ICIEA). 2010. p. 893–7.