Design of Steam Production Facility Piping System at the Geothermal Power Plant System Case Study: Dieng Geothermal Power Plant
Human needs for primary energy and electricity in Indonesia is increasing, while the source of the fuel used from fossil fuels reduced in number. Geothermal become one of alternative energy solutions that can be utilized for power plant generation. This final project conduct the design of steam...
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| 格式: | Final Project |
| 語言: | Indonesia |
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| 在線閱讀: | https://digilib.itb.ac.id/gdl/view/39268 |
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| 總結: | Human needs for primary energy and electricity in Indonesia is
increasing, while the source of the fuel used from fossil fuels reduced in number.
Geothermal become one of alternative energy solutions that can be utilized for
power plant generation.
This final project conduct the design of steam production facility piping
system at the geothermal power plant system Dieng PAD 29 and PAD 30. The
design include hidraulic analysis, selection of pipe diameter, pipe material, and
pipe thickness based on code ASME B31.1 power piping, and the last is stress
analysys and integrity modelling of piping system.
The results obtained from the hydraulic analysis in accordance with the
criteria at PAD 29 to the tie-in PAD 7 at 12,91 bar, 191,3 ° C, 10,74 MW, and for
PAD 30 to tie-in PAD 28 at 10,8 bar, 183,3 ° C, 24,3 MW. For the selection of
pipe material selected ASTM A53 Grade B with the results of the prediction of
corrosion on the pipe 2-phase, brine, and wet steam at 20 mpy, while to dry steam
at 5 mpy. Integrity of the modified power piping systems are safe from various
types of loads. The boundaries of the integrity on PAD 29 shows the system will
fail if the well head moved up and down as far as 0,7 m or 0,4 m, the operating
pressure up to 29 bar, hit by an earthquake up to 0,7 times from the acceleration
of gravity, or when experiencing a wind load of 140 km / h. While the boundaries
of the integrity on PAD 30 shows the system will fail if the well head moved up
and down as far as 0,6 m or 0,3 m, the operating pressure up to 22 bar, hit by an
earthquake up to 0,7 times from the acceleration of gravity, or when experiencing
a wind load of 100 km / h. |
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