� WARTSILA in october 1997, the Bangladesh Power Development Board signed a power Purchase Agreement for a 1 1 O MW, barge-mounted plant ar Khulna to help ease the critically short power supply in the West Zone of the country. The Khulna plant consists of two Wartsila Power Commodores , Tiger I and Tiger 111, designed for baseload operation and intended for electricity production in parallel operation with public supply system. Waste heat from the prime movers is used to produce thermal energy in the form of steam for auxiliary equipment. ( Special features ) Technical features of the Power Tigesrs include: Prefabricated, modular engine auxiliary systems to reduce installation time and cost. Main fuel oil supply from on-shore storage tanks with accomodation for on-board tanks in the hull. Noise level minimization by flexible mounting of the generating sets. Torsional vibration in the engine-generator shaft system is also minimized by means of a flexible coupling between the engine and generator. A modular design concept based on well-proven stan dard units and components that are optimized for each specific installation. � COGENERATION WORLD & Renewoble Energy Rapid start up and loading of generating sets. Customized Operation and Maintenance Manuals to cover the whole installation. Worldwide Service and the Customer Support Team to assist in the organization of day to-day operation and to set-up the best reporting, follow-up, incentives. ete. schemes, thus laying the foundation for long term successful operation of the plant. ( Plant main data and conditions ) The Khulna Power Commodores are equipped with nineteen (19) Wartsila 32 Low-Nox generating sets, nine(9) for Tiger I and ten (1 O) for Tiger 111. ( Plant performance ) Net electrical output 1 10.000 kwe; 137.500 kVA; power factor 0.8 ( Plant ratings ) Voltage ....................... 1 5 kV Frequency ..................50 Hz Auxiliary voltage. 415 v AC, 3 phase, 4 wire/240 V AC single phase Controls........................1 1O V DC and 1 10V/24V DC/DC converter
RkJQdWJsaXNoZXIy MTcyMTY=