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Power, Cogeneration & Trigeneration |
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CO-GENERATION
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Cogeneration is the simultaneous production of electrical power, hot water &
steam from the same fuel source. Companies install cogeneration systems because
it is usually more economical to produce your own electricity than purchase it.
The conventional power generation efficiency of a power plant is at about 35% and
the cogeneration power plant produces electrical power and a process heat at an
efficiency of 80%; therefore, the production is more than twice as efficient.
A cogeneration customer must be able to use the electricity and the waste heat from
the cogeneration facility. The waste heat can be used for steam production, hot
water production, hot air production, heating ability for heat process and for running
absorption chillers.
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TRI-GENERATION |
TRI-GENERATION is a concept of driving three different forms of energy from a primary
energy source, namely heating, cooling and power generation. It is also called Combined
Heating, Cooling & Power generation (CHCP).
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Saving, COGENERATION PROJECT
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Heat Recovered from Jacket of Engine
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Hot Water Inlet & Outlet Temperatures to run Chiller |
80°C / 90°C |
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Amount of Heat Recovered |
2,065,906 Btu/hr |
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Air Conditioning Produced |
110 USRT
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Saving |
2,851,200 Rs./Yr |
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Heat Recovered from Exhaust of Engine |
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Amount of Heat Available at Exhaust of Engine
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2,527,232 Btu/hr
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Steam Production at 10 barg |
1100 Kg/hr |
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Saving
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5,610,000 Rs./Yr |
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Gas Turbine Based Projects |
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Power House Study |
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Main Plant Energy Balance |
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Finalization of Power & Steam Equipment Technology |
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Electrical Survey |
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Steam System Survey |
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Short Listing of Suppliers |
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Tendering & Evaluation of Proposals |
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Price Negotiation, Contract Preparation & Placement of Order |
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Vetting of In House Plan for providing Utility Connections to the New Power House |
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Co-ordination with In House Project Team for Local Fabrication Progress and Performance
Test |
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Open Box Inspection |
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Co-coordinating During Erection |
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Contract Verification During Commissioning and Testing |
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Master Textile Mills, Lahore 2 X 4.2 MW |
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(Co –Generation 20 TPH WHRB with duct firing )
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Yunus Textile 2 X 1.2 MW Gas Turbine Power Plant |
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Pak American Fertilizer Ltd. 1 X 7.5 MW Gas Turbine Power Plant |
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ICI Khewra 1 X 5.2 MW Gas Turbine Powr Plant |
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Gas Engine With Waste Heat Recovery System |
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Nakshbandi Industries LTD. MW Karachi |
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Fabric & Terry Unit |
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5 MW Gas Engine with Waste Heat Recovery for Hot Water Generation |
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Gul Ahmed Textile Mills 9 MW Karachi |
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Textile Unit |
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Steam Generation from 8 Nos. existing Waukesha Gas Engines |
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Liberty Textile Mills 3 MW Karachi |
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Textile Unit |
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3 MW Gas Engine with Waste Heat Recovery for Hot Water Generation |
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S.M. Denim 2 MW Karachi |
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2 MW Gas Engine with Jacket heat recovery for hot water chiller and Exhaust steam
Recovery for Process. |
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Siddiqsons Denim Mills 4 MW Karachi |
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Waste heat recovery from Jacket water & Exhaust of 4 Nos CAT 3516 LE. |
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CHEMITEX Karachi |
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Jacket Water Heat Recovery for Boiler feed water preheating & energy conservation
through system reviewing.
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Yusuf Textile Mills Ltd. 2 MW Lahore |
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2 MW Gas Engine with Jacket heat recovery for hot water chiller and Exhaust steam
Recovery for Process. |
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Textiler Pvt. Ltd. 1 MW Karachi |
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1 MW Gas Engine with Exhaust steam Recovery from engine exhaust for steam fired
chiller operation for chilling purpose.
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M/s Sarena dyeing 1.5MW Lahore |
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Energy conservation, Waste heat recovery from Jacket water & Exhaust of engines. |
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