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Effect of exhaust pressure loss on efficiency of gas microturbine
Čechman, Ondřej ; Havlásek, Martin (referee) ; Máša, Vítězslav (advisor)
The aim of this bachelor thesis is to support of microturbines application in industrial processes where it is not used yet, but where it would bring economical saving. This is especially in the case of CHP. For specific CHP system is need to design heat exchanger according to the specific application. One of the necessary parameters for heat exchanger design is exhaust pressure loss caused by heat exchanger, which has negative effect on electrical efficiency of microturbine. The concrete aim of this thesis is verify effect exhaust pressure loss on electrical efficiency of gas microturbine. This issue is solved theoretically using values declared by manufacturer of microturbines, which has been later verified by experimental measurements. The results of this thesis will help to integrate specific microturbine (Capstone C30) as CHP unit for model of energy intensive consumer in the Laboratory of Energy Intensive Processes of NETME Centre at the Faculty of Mechanical Engineering at the Brno University of Technology.
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Experimental verification of a gas micro-turbine cogeneration system
Buřil, Lukáš ; Konečná, Eva (referee) ; Máša, Vítězslav (advisor)
This master’s thesis deals with problematics of natural gas microturbine integration into industrial laundry operation. This integration means utilization of waste heat for direct drying and water heating in a heat exchanger. This heated water can be used in further laundry processes, for example laundering. All the experiments were carried out on the cogeneration system that is installed in Laboratory of Energy Intensive Processes in NETME Centre at the Faculty of Mechanical Engineering of Brno University of Technology. This system consists of a natural gas microturbine Capstone C30 with nominal electric power of 30 kW, an industrial dryer Primus DX55 with a nominal capacity of 55 kg for laundry and a heat exchanger Vakading type Vakavlas with nominal power of 53 kW. All necessary theoretical and technical preparation was done in order to carry out experiments as follows: • Standard drying program • Water accumulation test • Test of performance of heat exchanger • Direct drying with the use of microturbine’s flue gases These experiments were analyzed and discussed within this thesis. The main contribution of this work is as follows: • Summary of all the knowledge in the area of direct drying • Creation of methodology of utilization of flue gases for direct drying not only in laundry industry but in related fields • Summary of requirements and ways of heat exchanger testing and determination of heat exchanger parameters • Determination of optimal working settings of installed cogeneration system • Description of weak spots in the system and suggested improvements • Basic economic analysis of operating costs During the experiments, it was found that in case of direct drying better results could be achieved in comparison with standard drying. The functionality of the whole system together with the heat exchanger was verified and thus also the possibility of integrating the turbine into the washing process was confirmed. The integration of a natural gas microturbine is both technically and economically feasible for many industrial applications.
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Analysis of factors influencing gas microturbine operation
Kostrhounová, Petra ; Máša, Vítězslav (referee) ; Konečná, Eva (advisor)
This bachelor thesis deals with the assessment of operating parameters of a gas microturbine. The first part covers the gas microturbine, its function and individual structural components. It also describes the possible use in combined heat and power generation and an overview of main manufacturers in the current market. The theoretical part of the work, based on a search of professional studies, summarizes selected factors influencing the efficiency of the gas microturbine, namely temperature and relative humidity, atmospheric pressure and parameters of various types of fuel. In the last part, the work focuses on the specific operation of the gas microturbine Capstone C30. Data from experimental measurements are analysed and the electrical efficiency is determined from them, which is compared with theoretical assumptions. Finally, the influence of the measured parameters on the electrical efficiency of the microturbine is discussed and the ideal course of the experiment is proposed.
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Control of gas microturbine equipped with waste heat recovery system
Kijanica, Michael ; Konečná, Eva (referee) ; Máša, Vítězslav (advisor)
This bachelor’s thesis deals with control of the cogeneration system which utilizes waste heat from gas microturbine. This complex cogeneration system was created in Laboratory of Energy Intensive Processes NETME Centre and its main purpose is the research in utilization of high temperature flue gas from Capstone C30 microturbine for drying laundry. In case of implementation of similar cogeneration system in industrial or commercial laundries, it is necessary to design automatic control of such system to make laundry - operations easier, minimizing energy waste and maximizing safety.
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Analysis of factors influencing gas microturbine operation
Kostrhounová, Petra ; Máša, Vítězslav (referee) ; Konečná, Eva (advisor)
This bachelor thesis deals with the assessment of operating parameters of a gas microturbine. The first part covers the gas microturbine, its function and individual structural components. It also describes the possible use in combined heat and power generation and an overview of main manufacturers in the current market. The theoretical part of the work, based on a search of professional studies, summarizes selected factors influencing the efficiency of the gas microturbine, namely temperature and relative humidity, atmospheric pressure and parameters of various types of fuel. In the last part, the work focuses on the specific operation of the gas microturbine Capstone C30. Data from experimental measurements are analysed and the electrical efficiency is determined from them, which is compared with theoretical assumptions. Finally, the influence of the measured parameters on the electrical efficiency of the microturbine is discussed and the ideal course of the experiment is proposed.
|
|
|
Control of gas microturbine equipped with waste heat recovery system
Kijanica, Michael ; Konečná, Eva (referee) ; Máša, Vítězslav (advisor)
This bachelor’s thesis deals with control of the cogeneration system which utilizes waste heat from gas microturbine. This complex cogeneration system was created in Laboratory of Energy Intensive Processes NETME Centre and its main purpose is the research in utilization of high temperature flue gas from Capstone C30 microturbine for drying laundry. In case of implementation of similar cogeneration system in industrial or commercial laundries, it is necessary to design automatic control of such system to make laundry - operations easier, minimizing energy waste and maximizing safety.
|
|
|
Experimental verification of a gas micro-turbine cogeneration system
Buřil, Lukáš ; Konečná, Eva (referee) ; Máša, Vítězslav (advisor)
This master’s thesis deals with problematics of natural gas microturbine integration into industrial laundry operation. This integration means utilization of waste heat for direct drying and water heating in a heat exchanger. This heated water can be used in further laundry processes, for example laundering. All the experiments were carried out on the cogeneration system that is installed in Laboratory of Energy Intensive Processes in NETME Centre at the Faculty of Mechanical Engineering of Brno University of Technology. This system consists of a natural gas microturbine Capstone C30 with nominal electric power of 30 kW, an industrial dryer Primus DX55 with a nominal capacity of 55 kg for laundry and a heat exchanger Vakading type Vakavlas with nominal power of 53 kW. All necessary theoretical and technical preparation was done in order to carry out experiments as follows: • Standard drying program • Water accumulation test • Test of performance of heat exchanger • Direct drying with the use of microturbine’s flue gases These experiments were analyzed and discussed within this thesis. The main contribution of this work is as follows: • Summary of all the knowledge in the area of direct drying • Creation of methodology of utilization of flue gases for direct drying not only in laundry industry but in related fields • Summary of requirements and ways of heat exchanger testing and determination of heat exchanger parameters • Determination of optimal working settings of installed cogeneration system • Description of weak spots in the system and suggested improvements • Basic economic analysis of operating costs During the experiments, it was found that in case of direct drying better results could be achieved in comparison with standard drying. The functionality of the whole system together with the heat exchanger was verified and thus also the possibility of integrating the turbine into the washing process was confirmed. The integration of a natural gas microturbine is both technically and economically feasible for many industrial applications.
|
|
|
Effect of exhaust pressure loss on efficiency of gas microturbine
Čechman, Ondřej ; Havlásek, Martin (referee) ; Máša, Vítězslav (advisor)
The aim of this bachelor thesis is to support of microturbines application in industrial processes where it is not used yet, but where it would bring economical saving. This is especially in the case of CHP. For specific CHP system is need to design heat exchanger according to the specific application. One of the necessary parameters for heat exchanger design is exhaust pressure loss caused by heat exchanger, which has negative effect on electrical efficiency of microturbine. The concrete aim of this thesis is verify effect exhaust pressure loss on electrical efficiency of gas microturbine. This issue is solved theoretically using values declared by manufacturer of microturbines, which has been later verified by experimental measurements. The results of this thesis will help to integrate specific microturbine (Capstone C30) as CHP unit for model of energy intensive consumer in the Laboratory of Energy Intensive Processes of NETME Centre at the Faculty of Mechanical Engineering at the Brno University of Technology.
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