The technology group Wärtsilä will supply fuel-flexible dual-fuel engines to extend, improve, and modernise power generation for a captive power plant at Flour Mills Nigeria. The company’s Lagos-based power plant is needed to ensure sufficient capacity and a reliable electricity supply around the clock to meet its food production requirements, and commitments to its customers. The two received orders were booked by Wärtsilä in March and June. The first order comprises a 9-cylinder Wärtsilä 34DF dual-fuel engine generator set and is an extension to the existing generating capacity provided by a similar Wärtsilä engine generator set that has been successfully operating since 2017. The second order comprises a 12-cylinder Wärtsilä 34DF engine generator set and is intended to replace an existing inefficient mono-fuel generating asset in the plant with efficient dual-fuel generating capacity as part of Flour Mills Nigeria’s captive power plant modernisation plans. The Wärtsilä engine generator sets will be delivered during 2021 and are expected to become fully operational in early 2022. The multi-fuel capability of the Wärtsilä engines, which can switch seamlessly from natural gas to liquid fuel mode while running at full load, facilitates continuous supply of electricity to critical loads in the event of uncertainties in the quality and quantity of the gas supply. In addition to maximising the availability and reliability, this inherent capability provides a valuable hedge against fuel price increases, and lends itself to accommodating future fuel infrastructure developments. The Nigerian government’s 30-30-30 vision document for the power sector aims to achieve a capacity of 30,000 megawatts of electricity by the year 2030, with at least 30 % being supplied from renewable energy sources. The selection of fast-starting and stopping Wärtsilä engines means that should the customer have access to solar or wind power in the future, these engine generator sets can provide smart back-up generation to balance the fluctuating supply from the renewables.