Aeroderivative gas turbines provide lower emissions and much smaller footprint, therefore, ensuring cleaner power and freeing land for other uses
Whitepaper argues the case for aero-derivative gas turbines; Highlights key advantages such as providing cheaper, cleaner, more reliable and faster power; Identifies the important role of aeroderivatives for grid firming as penetration of renewables soars; Discusses comparison data versus other engines on costs, fuel flexibility, output efficiency and mobility metrics amongst others.
As Africa’s leaders pursue state-of-the-art technology that can provide more affordable, reliable, accessible, and sustainable power for the continent, GE Power’s Gas Power Systems business (NYSE: GE) (www.GE.com/Power) today unveiled a whitepaper focused on gas turbine technology that can ensure a cleaner and safer operation while accommodating a high penetration of renewable energy sources.
Co-authored by GE gas power technology experts John Ingham and Monamee Adhikari, the whitepaper presents the advantages of using aeroderivative turbines which include better quality grid firming, cleaner power with lower emissions and cheaper power.
Aeroderivative gas turbines offer a variety of fuel options which provide the capability to harness fuels from different sources and to switch between fuels when economically preferred without shutting down. They also yield better efficiencies through rapid response to grid frequency fluctuations and combined cycle capability which results in better use of fuel. Lube oil consumption is 200 times lower when compared with reciprocating engines for example.
Averaging 8 times less operational and maintenance manpower and over 15 times fewer maintenance events than reciprocating engines during a 3-year cycle in an equivalent sized power plant, aeroderivatives require simpler maintenance and their higher reliability and availability provide power in a few days after inspection which also lowers capital expenditure (CAPEX) costs per unit of generated power.
Aeroderivative gas turbines provide lower emissions and much smaller footprint, therefore, ensuring cleaner power and freeing land for other uses. They also allow for better integration of intermittent renewables to the grid, by providing a more stable grid through excellent frequency control.
“The role of technology in achieving affordable and reliable power is essential. Aeroderivative gas turbines yield excellent efficiencies from installation to maintenance making it an appropriate solution for faster, cheaper, cleaner and more stable power,” said Elisee Sezan, CEO, GE’s Gas Power Systems business, Sub Saharan Africa. “Going forward, there is a need to adopt such technologies that will make access to power sustainable. With our expertise and experience powering the world with best-in-class gas portfolio, GE is best suited to help energy leaders and stakeholders achieve their objectives.” he further added.
Due to their small size and modular nature, aero-derivative gas turbines can be transported, installed and commissioned very quickly. The TM2500 generator set is trailer mounted and can be installed faster than traditional power plants, making it ideal for short- and long-term energy planning, stabilizing the grid, or powering remote locations.
With more than 100 million operating hours over the last 45 years and up to 44% simple cycle efficiency and 56% combined cycle efficiency with fast startup, high ramp rates and outstanding cycling capability, aeroderivatives provide flexible and reliable power generation.
GE is committed to the power transformation in Sub-Saharan Africa. The first turbine in the region was commissioned in the early 1950s and in 2018, GE achieved its 100th power plant installation in Sub-Sahara Africa totalling an installed base of over 300 turbines in up to 22 countries in the region.
