Dan efisiensi yang dimanfaatkan untuk mengetahui beban pengereman, dengan cara memanfaatkan uap dari ketel uap mengalir melalui pipa masuk ke orifice dan mengerakan turbin menuju sudu putaran pada sudu-sudu turbin implus dan berapa kg pembebanan pengereman yang dihasilkan. 1.2 Identifikasi Masalah Sistem dan proses kerja ketel uap, turbin. Sistem Turbin Uap - Free download as Powerpoint Presentation (.ppt), PDF File (.pdf), Text File (.txt) or view presentation slides online. PENINGKATAN EFISIENSI 1. Meningkatkan tekanan uap, diikuti dengan reheating untuk menghindari moisture yang berlebihan pada sudu tingkat-tingkat terakhir turbin. Dalam hal ini memerlukan REHEATER 2.
DESAIN AWAL TURBIN UAP TIPE AKSIAL UNTUK KONSEP RGTT30 BERPENDINGIN HELIUM
DOI: http://dx.doi.org/10.17146/tdm.2016.18.2.2319
Abstract
ABSTRAK
DESAIN AWAL TURBIN UAP TIPE AKSIAL UNTUK KONSEP RGTT30 BERPENDINGIN HELIUM. Konsep reaktor daya nuklir yang dikembangkan merupakan jenis reaktor berpendingin gas dengan temperatur tinggi (RGTT). Gas yang digunakan untuk mendinginkan teras RGTT adalah helium. Konsep RGTT ini dapat menghasilkan daya termal 30 MWth sehingga dinamakan RGTT30. Temperatur helium mampu mencapai 700 °C ketika keluar dari teras RGTT30 dan digunakan untuk memanaskan air di dalam steamgenerator hingga mencapai temperatur 435 °C. Steam generator dihubungkan dengan turbin uap yang dikopel dengan generator listrik untuk membangkitkan daya 7,27 MWe. Hyster forklift maintenance manual. Uap yang keluar dari turbin dilewatkan kondensor untuk mencairkan uap menjadi air. Rangkaian komponen dari steam generator, turbin, dan kondensor dinamakan sistem turbin uap. Turbin terdiri dari sudu-sudu yang dimaksudkan untuk mengubah tenaga uap kedalam tenaga mekanis berupa putaran. Efisiensi turbin merupakan parameter yang harus diperhatikan dalam sistem turbin uap ini. Tujuan dari makalah ini adalah untuk mengusulkan sudu tipe aksial dan untuk menganalisa perbaikan efisiensi turbin. Metode yang digunakan yaitu aplikasi prinsip termodinamika yang berhubungan dengan konservasi energi dan massa. Perangkat lunak Cycle-Tempo dipakai untuk mendapatkan parameter termodinamika dan untuk mensimulasikan sistem turbin uap berbasis RGTT30. Pertama, dibuat skenario dalam simulasi sistem turbin uap untuk mengetahui efisiensi dan laju aliran massa uap yang diperoleh nilai optimal 87,52 % dan 8,759 kg/s pada putaran 3000 rpm. Kemudian, turbin uap diberi sudu tipe aksial dengan diameter tip 1580 mm dan panjang 150 mm. Hasil yang diperoleh adalah nilai efisiensi turbin uap naik menjadi 88,3 % pada putaran konstan (3000 rpm). Penambahan nilai efisiensi turbin sebesar 0,78 % menunjukkan peningkatan kinerja RGTT30 secara keseluruhan.
Kata kunci: Tipe aksial, turbin uap, RGTT30
ABSTRACT
PRELIMINARY DESIGN ON STEAM TURBINE OF AXIAL TYPE FOR HELIUM-COOLED RGTT30 CONCEPT. The concept of a nuclear power reactor, which evolves, is high temperature gas-cooled reactor type (HTGR). Gas that is used to cool the HTGR core, is helium. The HTGR concept used in this study can yield thermal power of 30 MWth so that named RGTT30. Helium temperature can reach 700 °C when come out from the RGTT30 core and it is used for heating the water within steam generator to achieve the temperature of 435 °C. The steam generator is connected to a steam turbine, which is coupled with an electricity generator, for generating electric power of 7.27 MWe. The steam that comes out from the turbine is flowed through condenser for changing the steam into water. The component train of steam generator, turbine, and condenser was given the name of steam turbine system. The turbine consists of blades that are intended to transform the steam power into mechanical power in the form of rotational speed. Turbine efficiency is a parameter that must be considered in this steam turbine system. The aims of this paper are to propose blade of axial type and to analyze the efficiency improvement of the turbine. The method used is the application of the thermodynamic principles associated with conservations of energy and mass. Cycle-Tempo software is used to obtain thermodynamic parameters and to simulate the steam turbine system based on RGTT30. Firstly, a scenario is created to model and simulate the steam turbine system for determining the efficiency and the mass flow rate of steam. The optimal values for the efficiency and the mass flow rates at the speed of 3000 rpm are 87.52 % and 8.759 kg/s, respectively. Then, the steam turbine was given the blade of axial type with a tip diameter of 1580 mm and a length of 150 mm. The results obtained are turbine efficiency increasing to 88.3% on constant speed (3000 rpm). Enhancement in the turbine efficiency value of 0.78% showed raising the overall performance of RGTT30.
Keywords: Axial type, steam turbine, RGTT30Refbacks
- There are currently no refbacks.
Satiti, Sekar (2016)Analisis Peforma PLTU versus Variasi Beban pada TurbinUap menggunakan Software Cycle Tempo. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
| Text 2111100044_Undergraduate-Thesis.pdf - Published Version Download (2MB) Preview |
Abstract
Penggunaan listrik merupakan kebutuhan utama. DiIndonesia, pembangkit listrik umumnya menggunakan tenagauap. Pembangkit listrik tenaga uap merupakan suatu pembangkitlistrik dimana energi listrik dihasilkan oleh generator yangdiputar oleh turbin uap yang memanfaatkan tekanan uap hasilpenguapan air yang dipanaskan oleh bahan bakar di dalamruang bakar (boiler). Salah satu komponen penting dalam PLTUadalah turbin uap. Turbin digunakan untuk memutar generatordengan cara mengubah energi termal yang terkandung dalamuap menjadi energi mekanik. Salah satu produsen listrik yangakan diteliti yaitu berada di Tanjung Balai Karimun. PLTUdengan kapasitas 7630 kW dalam nett output dan 9032 kW dalamgross output.Langkah-langkah yang digunakan dalam penelitian ini,diawali dengan pengambilan data PLTU. Analisis termal padasistem pembangkit di Tanjung Balai dalam keadaan normal.Membuat pemodelan PLTU menggunakan software cycle tempoberdasarkan process flow diagram (PFD). Pemodelan dilakukanmulai dari kondisi eksisting dan variasi pembebanan pada turbinuap dalam cycle tempo sebesar 50%; 75% ;100% dan 110%sehingga didapatkan data heat mass balance dan nett efisiensi.Penelitian analisis performa PLTU versus variasi bebanpada turbin uap mendapatkan hasil pengaruh pembebanan turbin uap terhadap nilai heat rate dan konsumsi bahan bakar. Validasihasil pemodelan cycle tempo dan lapangan sebesar 0.0018 dariangka mass flow rate. Perbedaan beban pada turbin didapatkankenaikkan konsumsi batubara pada PLTU sebesar 3.35 kg/s; 4.75kg/s; 5.77 kg/s dan 6.49 kg/s dalam perhitungan termodinamika.Kenaikkan konsumsi batubara menggunakan perhitungan dengancycle tempo sebesar 3.99 kg/s; 5.98 kg/s; 7.98 kg/s dan 8.77 kg/s.Nilai nett heat rate dari PLTU didapatkan nilai yang menurun.Nilai nett heat rate dalam perhitungan termodinamika sebesar48083.55 kJ/kW-h; 45513.98 kJ/kW-h; 41445.79 kJ/kW-h dan40893.18 kJ/kW-h. Nilai nett heat rate dalam perhitunganmenggunakan cycle tempo, yaitu 57357.18 kJ/kW-h; 57334.56kJ/kW-h; 57324.45 kJ/kW-h dan 57315.67 kJ/kW-h. Nilai grossheat rate dari PLTU didapatkan nilai yang terus menurun. Nilaigross heat rate dalam perhitungan termodinamika sebesar40619.74 kJ/kW-h; 38449.03 kJ/kW-h; 35012.33 kJ/kW-h dan34406.16 kJ/kW-h. Nilai gross heat rate yang didapat dariperhitungan dalam cycle tempo sebesar 48453.86 kJ/kW-h;48434.75 kJ/kW-h; 48426.21 kJ/kW-h dan 48419.28 kJ/kW-h. Using of electricity is the main requirement. In Indonesia,power plants generally use steam. Steam power plant is a powerplant where the electrical energy generated by generator that isturned by a steam turbine that utilize the result of evaporation,vapor pressure that is heated by the fuel in the combustionchamber. One of important component in plant is steam turbine.Stream turbine on power plant is used to turn a generator bychanging the thermal energy contained in the steam intomechanical energy. One of produce electricity that will be studiedare located in Tanjung Balai Karimun. Power plant with acapacity of 7630 kW in nett output and 9032 kW in gross output.Steps are used in this study is starting with datacollection PLTU. Analysis thermal of power plant in TanjungBalai in normal circumstances. Creating model of power plantusing cycle tempo based on process flow diagram (PFD).Modeling start from existing conditions and variations of load onthe steam turbine on cycle tempo by 50 75, 100 and 110, so thatthe data obtained heat mass balance and nett efficiency.Research from analysis of PLTU performance versussteam turbine load variations of load on steam turbine get theloading effect on steam turbine with the value of heat rate andfuel consumption. Validation from cycle tempo and process flowdiagram is 0.0018 from number mass flow rate. Differences inload on the turbine is obtained an increase in coal consumption Using of electricity is the main requirement. In Indonesia,power plants generally use steam. Steam power plant is a powerplant where the electrical energy generated by generator that isturned by a steam turbine that utilize the result of evaporation,vapor pressure that is heated by the fuel in the combustionchamber. One of important component in plant is steam turbine.Stream turbine on power plant is used to turn a generator bychanging the thermal energy contained in the steam intomechanical energy. One of produce electricity that will be studiedare located in Tanjung Balai Karimun. Power plant with acapacity of 7630 kW in nett output and 9032 kW in gross output.Steps are used in this study is starting with datacollection PLTU. Analysis thermal of power plant in TanjungBalai in normal circumstances. Creating model of power plantusing cycle tempo based on process flow diagram (PFD).Modeling start from existing conditions and variations of load onthe steam turbine on cycle tempo by 50 75, 100 and 110, so thatthe data obtained heat mass balance and nett efficiency.Research from analysis of PLTU performance versussteam turbine load variations of load on steam turbine get theloading effect on steam turbine with the value of heat rate andfuel consumption. Validation from cycle tempo and process flowdiagram is 0.0018 from number mass flow rate. Differences inload on the turbine is obtained an increase in coal consumption
| Item Type: | Thesis (Undergraduate) |
|---|---|
| Additional Information: | RSM 621.165 Sat a |
| Uncontrolled Keywords: | Variasi Beban pada Turbin Uap, PerformaPembangkit, Software Cycle - Tempo |
| Subjects: | T Technology > TJ Mechanical engineering and machinery > TJ164 Power plants--Design and construction |
| Divisions: | Faculty of Industrial Technology > Mechanical Engineering > 21201-(S1) Undergraduate Thesis |
| Depositing User: | Users 13 not found. |
| Date Deposited: | 21 Jun 2017 06:38 |
| Last Modified: | 27 Dec 2018 07:40 |
| URI: | http://repository.its.ac.id/id/eprint/41800 |
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Dan efisiensi yang dimanfaatkan untuk mengetahui beban pengereman, dengan cara memanfaatkan uap dari ketel uap mengalir melalui pipa masuk ke orifice dan mengerakan turbin menuju sudu putaran pada sudu-sudu turbin implus dan berapa kg pembebanan pengereman yang dihasilkan. 1.2 Identifikasi Masalah Sistem dan proses kerja ketel uap, turbin. Sistem Turbin Uap - Free download as Powerpoint Presentation (.ppt), PDF File (.pdf), Text File (.txt) or view presentation slides online. PENINGKATAN EFISIENSI 1. Meningkatkan tekanan uap, diikuti dengan reheating untuk menghindari moisture yang berlebihan pada sudu tingkat-tingkat terakhir turbin. Dalam hal ini memerlukan REHEATER 2.
DESAIN AWAL TURBIN UAP TIPE AKSIAL UNTUK KONSEP RGTT30 BERPENDINGIN HELIUM
DOI: http://dx.doi.org/10.17146/tdm.2016.18.2.2319
Abstract
ABSTRAK
DESAIN AWAL TURBIN UAP TIPE AKSIAL UNTUK KONSEP RGTT30 BERPENDINGIN HELIUM. Konsep reaktor daya nuklir yang dikembangkan merupakan jenis reaktor berpendingin gas dengan temperatur tinggi (RGTT). Gas yang digunakan untuk mendinginkan teras RGTT adalah helium. Konsep RGTT ini dapat menghasilkan daya termal 30 MWth sehingga dinamakan RGTT30. Temperatur helium mampu mencapai 700 °C ketika keluar dari teras RGTT30 dan digunakan untuk memanaskan air di dalam steamgenerator hingga mencapai temperatur 435 °C. Steam generator dihubungkan dengan turbin uap yang dikopel dengan generator listrik untuk membangkitkan daya 7,27 MWe. Hyster forklift maintenance manual. Uap yang keluar dari turbin dilewatkan kondensor untuk mencairkan uap menjadi air. Rangkaian komponen dari steam generator, turbin, dan kondensor dinamakan sistem turbin uap. Turbin terdiri dari sudu-sudu yang dimaksudkan untuk mengubah tenaga uap kedalam tenaga mekanis berupa putaran. Efisiensi turbin merupakan parameter yang harus diperhatikan dalam sistem turbin uap ini. Tujuan dari makalah ini adalah untuk mengusulkan sudu tipe aksial dan untuk menganalisa perbaikan efisiensi turbin. Metode yang digunakan yaitu aplikasi prinsip termodinamika yang berhubungan dengan konservasi energi dan massa. Perangkat lunak Cycle-Tempo dipakai untuk mendapatkan parameter termodinamika dan untuk mensimulasikan sistem turbin uap berbasis RGTT30. Pertama, dibuat skenario dalam simulasi sistem turbin uap untuk mengetahui efisiensi dan laju aliran massa uap yang diperoleh nilai optimal 87,52 % dan 8,759 kg/s pada putaran 3000 rpm. Kemudian, turbin uap diberi sudu tipe aksial dengan diameter tip 1580 mm dan panjang 150 mm. Hasil yang diperoleh adalah nilai efisiensi turbin uap naik menjadi 88,3 % pada putaran konstan (3000 rpm). Penambahan nilai efisiensi turbin sebesar 0,78 % menunjukkan peningkatan kinerja RGTT30 secara keseluruhan.
Kata kunci: Tipe aksial, turbin uap, RGTT30
ABSTRACT
PRELIMINARY DESIGN ON STEAM TURBINE OF AXIAL TYPE FOR HELIUM-COOLED RGTT30 CONCEPT. The concept of a nuclear power reactor, which evolves, is high temperature gas-cooled reactor type (HTGR). Gas that is used to cool the HTGR core, is helium. The HTGR concept used in this study can yield thermal power of 30 MWth so that named RGTT30. Helium temperature can reach 700 °C when come out from the RGTT30 core and it is used for heating the water within steam generator to achieve the temperature of 435 °C. The steam generator is connected to a steam turbine, which is coupled with an electricity generator, for generating electric power of 7.27 MWe. The steam that comes out from the turbine is flowed through condenser for changing the steam into water. The component train of steam generator, turbine, and condenser was given the name of steam turbine system. The turbine consists of blades that are intended to transform the steam power into mechanical power in the form of rotational speed. Turbine efficiency is a parameter that must be considered in this steam turbine system. The aims of this paper are to propose blade of axial type and to analyze the efficiency improvement of the turbine. The method used is the application of the thermodynamic principles associated with conservations of energy and mass. Cycle-Tempo software is used to obtain thermodynamic parameters and to simulate the steam turbine system based on RGTT30. Firstly, a scenario is created to model and simulate the steam turbine system for determining the efficiency and the mass flow rate of steam. The optimal values for the efficiency and the mass flow rates at the speed of 3000 rpm are 87.52 % and 8.759 kg/s, respectively. Then, the steam turbine was given the blade of axial type with a tip diameter of 1580 mm and a length of 150 mm. The results obtained are turbine efficiency increasing to 88.3% on constant speed (3000 rpm). Enhancement in the turbine efficiency value of 0.78% showed raising the overall performance of RGTT30.
Keywords: Axial type, steam turbine, RGTT30Refbacks
- There are currently no refbacks.
Satiti, Sekar (2016)Analisis Peforma PLTU versus Variasi Beban pada TurbinUap menggunakan Software Cycle Tempo. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
| Text 2111100044_Undergraduate-Thesis.pdf - Published Version Download (2MB) Preview |
Abstract
Penggunaan listrik merupakan kebutuhan utama. DiIndonesia, pembangkit listrik umumnya menggunakan tenagauap. Pembangkit listrik tenaga uap merupakan suatu pembangkitlistrik dimana energi listrik dihasilkan oleh generator yangdiputar oleh turbin uap yang memanfaatkan tekanan uap hasilpenguapan air yang dipanaskan oleh bahan bakar di dalamruang bakar (boiler). Salah satu komponen penting dalam PLTUadalah turbin uap. Turbin digunakan untuk memutar generatordengan cara mengubah energi termal yang terkandung dalamuap menjadi energi mekanik. Salah satu produsen listrik yangakan diteliti yaitu berada di Tanjung Balai Karimun. PLTUdengan kapasitas 7630 kW dalam nett output dan 9032 kW dalamgross output.Langkah-langkah yang digunakan dalam penelitian ini,diawali dengan pengambilan data PLTU. Analisis termal padasistem pembangkit di Tanjung Balai dalam keadaan normal.Membuat pemodelan PLTU menggunakan software cycle tempoberdasarkan process flow diagram (PFD). Pemodelan dilakukanmulai dari kondisi eksisting dan variasi pembebanan pada turbinuap dalam cycle tempo sebesar 50%; 75% ;100% dan 110%sehingga didapatkan data heat mass balance dan nett efisiensi.Penelitian analisis performa PLTU versus variasi bebanpada turbin uap mendapatkan hasil pengaruh pembebanan turbin uap terhadap nilai heat rate dan konsumsi bahan bakar. Validasihasil pemodelan cycle tempo dan lapangan sebesar 0.0018 dariangka mass flow rate. Perbedaan beban pada turbin didapatkankenaikkan konsumsi batubara pada PLTU sebesar 3.35 kg/s; 4.75kg/s; 5.77 kg/s dan 6.49 kg/s dalam perhitungan termodinamika.Kenaikkan konsumsi batubara menggunakan perhitungan dengancycle tempo sebesar 3.99 kg/s; 5.98 kg/s; 7.98 kg/s dan 8.77 kg/s.Nilai nett heat rate dari PLTU didapatkan nilai yang menurun.Nilai nett heat rate dalam perhitungan termodinamika sebesar48083.55 kJ/kW-h; 45513.98 kJ/kW-h; 41445.79 kJ/kW-h dan40893.18 kJ/kW-h. Nilai nett heat rate dalam perhitunganmenggunakan cycle tempo, yaitu 57357.18 kJ/kW-h; 57334.56kJ/kW-h; 57324.45 kJ/kW-h dan 57315.67 kJ/kW-h. Nilai grossheat rate dari PLTU didapatkan nilai yang terus menurun. Nilaigross heat rate dalam perhitungan termodinamika sebesar40619.74 kJ/kW-h; 38449.03 kJ/kW-h; 35012.33 kJ/kW-h dan34406.16 kJ/kW-h. Nilai gross heat rate yang didapat dariperhitungan dalam cycle tempo sebesar 48453.86 kJ/kW-h;48434.75 kJ/kW-h; 48426.21 kJ/kW-h dan 48419.28 kJ/kW-h. Using of electricity is the main requirement. In Indonesia,power plants generally use steam. Steam power plant is a powerplant where the electrical energy generated by generator that isturned by a steam turbine that utilize the result of evaporation,vapor pressure that is heated by the fuel in the combustionchamber. One of important component in plant is steam turbine.Stream turbine on power plant is used to turn a generator bychanging the thermal energy contained in the steam intomechanical energy. One of produce electricity that will be studiedare located in Tanjung Balai Karimun. Power plant with acapacity of 7630 kW in nett output and 9032 kW in gross output.Steps are used in this study is starting with datacollection PLTU. Analysis thermal of power plant in TanjungBalai in normal circumstances. Creating model of power plantusing cycle tempo based on process flow diagram (PFD).Modeling start from existing conditions and variations of load onthe steam turbine on cycle tempo by 50 75, 100 and 110, so thatthe data obtained heat mass balance and nett efficiency.Research from analysis of PLTU performance versussteam turbine load variations of load on steam turbine get theloading effect on steam turbine with the value of heat rate andfuel consumption. Validation from cycle tempo and process flowdiagram is 0.0018 from number mass flow rate. Differences inload on the turbine is obtained an increase in coal consumption Using of electricity is the main requirement. In Indonesia,power plants generally use steam. Steam power plant is a powerplant where the electrical energy generated by generator that isturned by a steam turbine that utilize the result of evaporation,vapor pressure that is heated by the fuel in the combustionchamber. One of important component in plant is steam turbine.Stream turbine on power plant is used to turn a generator bychanging the thermal energy contained in the steam intomechanical energy. One of produce electricity that will be studiedare located in Tanjung Balai Karimun. Power plant with acapacity of 7630 kW in nett output and 9032 kW in gross output.Steps are used in this study is starting with datacollection PLTU. Analysis thermal of power plant in TanjungBalai in normal circumstances. Creating model of power plantusing cycle tempo based on process flow diagram (PFD).Modeling start from existing conditions and variations of load onthe steam turbine on cycle tempo by 50 75, 100 and 110, so thatthe data obtained heat mass balance and nett efficiency.Research from analysis of PLTU performance versussteam turbine load variations of load on steam turbine get theloading effect on steam turbine with the value of heat rate andfuel consumption. Validation from cycle tempo and process flowdiagram is 0.0018 from number mass flow rate. Differences inload on the turbine is obtained an increase in coal consumption
| Item Type: | Thesis (Undergraduate) |
|---|---|
| Additional Information: | RSM 621.165 Sat a |
| Uncontrolled Keywords: | Variasi Beban pada Turbin Uap, PerformaPembangkit, Software Cycle - Tempo |
| Subjects: | T Technology > TJ Mechanical engineering and machinery > TJ164 Power plants--Design and construction |
| Divisions: | Faculty of Industrial Technology > Mechanical Engineering > 21201-(S1) Undergraduate Thesis |
| Depositing User: | Users 13 not found. |
| Date Deposited: | 21 Jun 2017 06:38 |
| Last Modified: | 27 Dec 2018 07:40 |
| URI: | http://repository.its.ac.id/id/eprint/41800 |
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