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Evaluation of Possibility of New Source Connection With Regard to Nodal Voltage
Němec, Jan ; Topolánek, David (referee) ; Toman, Petr (advisor)
Connection new source of electrical energy into distribution network is important for existing one for reasons its rating and dimensioning. It is even evaluate, whether possibility connection new source in to network is real and do not endanger continuous running distribution system. This work has shown, what conditions are need realize for connection source into distribution network in view of voltage ratio. Next it must incidence harmonic current and affecting centralized telecontrol signal about reasoning. Against a background examination connection source are administrative acts, which forms basis of successful connection. On basis lets request of connection mostly study of connection working up. This study contains concrete calculation and examination individual factors for connection new source. Next put mind to connection wind power station, because wind power stations are very special source for connection into distribution network. Bigger demands are putting on them and stricter examination of connection to site must be done. Because during time unit (day, week and month) they have various strain diagram. Which makes higher straining of distribution and necessity have reserve of electrical energy for case fail wind power station owing to windless ness. In the end, there is referred to practical examination example of possibility connecting. As this example was chosen examination of wind park to 110 kW network with 32 MVA installed power from view of voltage ratio. Solution process is given by replacement of part of given Picells link and by calculation steady state of node site system with Gauss-Seidels iteration method. After that follows evaluation of voltage change in the site before and after connection of source to the network, which can not be higher than 2%. In this example is this condition satisfied and from a view of voltage ratio there is nothing to obstruct for connection new source to network.
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Simulation of the Heat Diffusion with a Time-Varying Source on GPUs
Hála, Pavel ; Záň, Drahoslav (referee) ; Jaroš, Jiří (advisor)
This bachelor's thesis deals with the simulation of the heat transfer inside human tissue injected by an external time varying heat source. The proposed implemented simulation is based on a 4th order in space and 1st order in time finite-difference time domain method. First, a multithreaded CPU version was implemented. Subsequently, several GPU accelerated versions were implemented taking into account architecture aspect of the GPU. The experimental results showed that the fastest GPU kernel was the naive one using only the GPU global memory. Next, the usefulness of the Gauss-Seidel's method was investigated. The CPU implementation of the method was evaluated as usable because of being only 13% slower while saving up to 50% of memory resources. However, the GPU implementation was twice as slow as the naive version mainly due to shared memory size limits. The peak performance in terms of GFLOPS reached 32 and 135 on CPU and GPU, respectively. This corresponds to 10% and 9% of the theoretical potential of given architectures.
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Simulation of the Heat Diffusion with a Time-Varying Source on GPUs
Hála, Pavel ; Záň, Drahoslav (referee) ; Jaroš, Jiří (advisor)
This bachelor's thesis deals with the simulation of the heat transfer inside human tissue injected by an external time varying heat source. The proposed implemented simulation is based on a 4th order in space and 1st order in time finite-difference time domain method. First, a multithreaded CPU version was implemented. Subsequently, several GPU accelerated versions were implemented taking into account architecture aspect of the GPU. The experimental results showed that the fastest GPU kernel was the naive one using only the GPU global memory. Next, the usefulness of the Gauss-Seidel's method was investigated. The CPU implementation of the method was evaluated as usable because of being only 13% slower while saving up to 50% of memory resources. However, the GPU implementation was twice as slow as the naive version mainly due to shared memory size limits. The peak performance in terms of GFLOPS reached 32 and 135 on CPU and GPU, respectively. This corresponds to 10% and 9% of the theoretical potential of given architectures.
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Evaluation of Possibility of New Source Connection With Regard to Nodal Voltage
Němec, Jan ; Topolánek, David (referee) ; Toman, Petr (advisor)
Connection new source of electrical energy into distribution network is important for existing one for reasons its rating and dimensioning. It is even evaluate, whether possibility connection new source in to network is real and do not endanger continuous running distribution system. This work has shown, what conditions are need realize for connection source into distribution network in view of voltage ratio. Next it must incidence harmonic current and affecting centralized telecontrol signal about reasoning. Against a background examination connection source are administrative acts, which forms basis of successful connection. On basis lets request of connection mostly study of connection working up. This study contains concrete calculation and examination individual factors for connection new source. Next put mind to connection wind power station, because wind power stations are very special source for connection into distribution network. Bigger demands are putting on them and stricter examination of connection to site must be done. Because during time unit (day, week and month) they have various strain diagram. Which makes higher straining of distribution and necessity have reserve of electrical energy for case fail wind power station owing to windless ness. In the end, there is referred to practical examination example of possibility connecting. As this example was chosen examination of wind park to 110 kW network with 32 MVA installed power from view of voltage ratio. Solution process is given by replacement of part of given Picells link and by calculation steady state of node site system with Gauss-Seidels iteration method. After that follows evaluation of voltage change in the site before and after connection of source to the network, which can not be higher than 2%. In this example is this condition satisfied and from a view of voltage ratio there is nothing to obstruct for connection new source to network.
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