The technology group Wärtsilä will supply the engines for a large power plant to be installed in Latin America. Initially, the plant will provide baseload power to the grid, but the rapid start-up flexibility of the engines will enable it to take on a grid balancing role as the system’s share of renewable energy increases. The order, valued at more than EUR 100 million, was placed by a major EPC contractor, and was booked in Wärtsilä’s order intake in November 2022.The plant will operate with 18 Wärtsilä 50SG gas engines, which in simple cycle deliver an output of 339 MW. In combined cycle mode, the heat from the stacks will be recovered to provide more than 350 MW. The combined cycle will be developed by the customer on a configuration of three steam turbines, which further improves the plant’s flexibility and will operate at maximum efficiency even at part loads. The high overall efficiency level of the plant will reduce emissions, while the ability of the Wärtsilä engines to accept future sustainable fuels as they become available, provides future-proof sustainability for the plant.Wärtsilä’s gas engines are designed to act as a bridging technology; by providing baseload power now, before optimally switching to provide balancing power to support the build-out of renewable energy technologies.
The technology group Wärtsilä will supply the engines for a large power plant to be installed in Latin America. Initially, the plant will provide baseload power to the grid, but the rapid start-up flexibility of the engines will enable it to take on a grid balancing role as the system’s share of renewable energy increases. The order, valued at more than EUR 100 million, was placed by a major EPC contractor, and was booked in Wärtsilä’s order intake in November 2022.The plant will operate with 18 Wärtsilä 50SG gas engines, which in simple cycle deliver an output of 339 MW. In combined cycle mode, the heat from the stacks will be recovered to provide more than 350 MW. The combined cycle will be developed by the customer on a configuration of three steam turbines, which further improves the plant’s flexibility and will operate at maximum efficiency even at part loads. The high overall efficiency level of the plant will reduce emissions, while the ability of the Wärtsilä engines to accept future sustainable fuels as they become available, provides future-proof sustainability for the plant.Wärtsilä’s gas engines are designed to act as a bridging technology; by providing baseload power now, before optimally switching to provide balancing power to support the build-out of renewable energy technologies.
