BLOWDOWN BOILER MASS FLOW SIMULATION IN MAINTAINING RELIABILITY AND EFFICIENCY OF COAL FIRED STEAM POWER PLANT (CASE STUDY IN PLTU OMBILIN 2 X 100 MW)
The concentration of impurities in the steam drum boiler is an important factor that must be maintained to maintain the reliabilityof the power plant. One of the efforts made is to blowdown. Boiler blowdown is carried out to drain water out of the steam drum. Mass flow rate and duration of blowdo...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/46436 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The concentration of impurities in the steam drum boiler is an important factor
that must be maintained to maintain the reliabilityof the power plant. One of the
efforts made is to blowdown. Boiler blowdown is carried out to drain water out of
the steam drum. Mass flow rate and duration of blowdown must be set precisely
because if it is excessive it will reduce the efficiency of the power plant, otherwise
if it is deficient it will increase the concentration of impurities in the boiler. To
find out the mass flow rate and the exact blowdown duration, simulations are
carried out using approaches of numerical equations. The simulation is done
using 3 scenarios. The first scenario, the simulation is done to reduce the
concentration of silica in the steam drum that has exceeded the safe limit. The
second scenario, the simulation is carried out to prevent the silica concentration
in the steam drum from exceeding its safe limit. The third scenario,the simulation
is carried out to overcome the condenser leak. The case study in this research was
conducted at the Ombilin power plant, which strengthens the electricity system on
the island of Sumatra, Indonesia. The regulation of the blowdown mass flow rate
at the Ombilin power plant is done every 4 hours following a chemical analysis
schedule in the laboratory. All scenarios in this research were carried out by
comparing the simulation of blowdown setting according to the actual procedure
at the Ombilin power plant to the optimum simulation results of blowdown
settings. In the first scenario, the potential for energy savings for 4 hours is
71,011,836.9 kJ. In the second scenario, it is known that the silica concentration
in the steam drum can be kept under safe limits even though the silica
concentration in the feedwater boiler system increases. In the third scenario, we
obtain the mass flow rate and the exact timing of the blowdown adjustment in
controlling the condenser leak.
|
|---|