H2S, anoxic, PLTA, Sistem Pembuangan Lokal
Jatiluhur reservoir had been found in an anoxic condition which increase the organic content of the reservoir and produce dissolved H2S gas. Water from Jatiluhur reservoir is harness by Jatiluhur Hydroelectric Power plant, resulting an emission of H2S gas inside the powerhouse and control room. I...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/34972 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Jatiluhur reservoir had been found in an anoxic condition which increase the
organic content of the reservoir and produce dissolved H2S gas. Water from
Jatiluhur reservoir is harness by Jatiluhur Hydroelectric Power plant, resulting an
emission of H2S gas inside the powerhouse and control room. Implementation of
Local Exhaust Ventilation System can be done to control H2S emission in workplace
environment. Local exhaust ventilation system is composed of four components:
hood, ducting system, air cleaning device, and fan. The purpose of this design is to
propose an alternative design of local exhaust ventilation components as a control
measure for H2S emission inside the powerhouse and control room of Jatiluhur
hydroelectric power plant. There are two design alternative; design based on the
concentration gradient of H2S and design based on temperature gradient; in which
out of the two alternatives one will be chosen according to each alternative’s
pressure loss. H2S concentration gradient was obtained by inputing nine
concentration points as a contour map on surfer program. Temperature gradient
was obtained by inputing the value of temperature at 22 points as a contour map
and vector map then overlay them using surfer program. Design based on
concentration gradient is a design that consider the pattern of H2S dispersion while
design based on temperature gradient is a design that consider the direction of air
flow. The alternative chosen was the design based on temperature gradient which
consists of: three hood, seven duct segments, one packed column absorption unit,
one fan, and one evase. There are three hoods placement for the chosen alternative.
The air velocity at those three points were calculated by theory of gas kinetics. The
designed hoods were capturing hood-tapered 60o opening with flowrate of: 3411.3
cfm; 3788 cfm; 6992 cfm. The designed duct segments were stainless steel duct with
diameter of: 15”; 16”; 17”; 25”; 28”; 29.5”; 35”. The designed packed column
absorber was planned to remove 4,6 ppm of H2S with an efficiency of 99.78%. The
chosen fan was a High Capacity Blower with a flowrate capacity of 14122.12 cfm
and fan static pressure of 16.24 “water gauge. All the designed components
investment costs were then calculated using an interpolation of cost index on year
2015 because the absence of standard unit value for local exhaust ventilation
system. The investment costs of the local exhaust system design was: Rp.
80.211.796.733,00. This designed is accompanied by the technical drawings of the
chosen design alternative. |
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