W?rtsil? to develop RI?s first bio-LNG plant
Wednesday, October 8 2014 - 07:55 AM WIB
Finnish firm W?rtsil? announced that it and state owned oil and gas firm PT Pertamina and PT Godang Tua Jaya (GTJ), a waste utilization sector specialist, signed on Wednesday an agreement to jointly build the first ever bio-LNG plant in Indonesia.
W?rtsil? Oil & Gas Systems (WOGS) will conduct a feasibility study for the project to develop a mini bio-LNG plant with a capacity of 0,75 tons/hour, which corresponds to approximately 4 MW/hour in electrical production.
The plant will process municipal solid waste into eco-friendly biogas for use as a renewable energy source for typical vehicle fuel. In addition to the feasibility study, WOGS will provide technological support and an economic assessment. This study represents a Front End Engineering Design (FEED) equivalent. If the project is deemed to be feasible then the parties are expected to enter into an Execution Agreement.
?Renewable energy is an increasingly important global requirement, and we are proud to be involved in this landmark project. W?rtsil? has the experience and technological expertise in this area to turn solid waste into a valuable resource that can benefit the community,? said Sanjay Verma, Area Sales Director, W?rtsil? Ship Power.
W?rtsil? has delivered LNG plants with capacities ranging from 20,000 to 85,000 tons per year and has also developed solutions for capacities up to 1 million tons per year. At the other end of the scale are W?rtsil??s mini LNG plants that are particularly suitable for the liquefaction of biogas, and the production of LNG as a vehicle fuel.
An outstanding example of W?rtsil??s expertise in this field is the W?rtsil? biogas liquefaction plant in Oslo, Norway. The plant converts household food waste into biomethane that is then used to fuel the local buses. The plant treats 50,000 tons of garbage per year, which produces enough fuel to run 135 buses. The environmental benefits are extremely significant with annual CO2 emissions being reduced by as much as 10,000 tons. Additionally, nitrogen oxides (NOx), noise levels, and particulate emissions are also considerably reduced.
Editing by Johannes Simbolon
