Overview

The adoption of more renewable energy sources is essential in meeting global environmental and sustainability goals. By making use of readily available organic materials - from agriculture, food waste and other sources - ongoing dependency on depleting oil and gas reserves can be avoided and we can dramatically reduce the levels of CO2 and other greenhouse gases being released into the atmosphere.

Celeros Flow Technology recognizes the challenges that the energy transition raises for our customers. With an engineering pedigree that can be traced back more than 100 years, we have the application knowledge and technical expertise to deliver fully customized flow control solutions that respond to the diverse process challenges of transitioning from fossil fuels to renewable resources such as biofuels and biomass.

We offer an extensive range of solutions to ensure that renewable energy is produced in the most efficient and sustainable way. Our flow control technology keeps greenhouse gas emissions to a minimum, as well as significantly lowering the electricity consumption involved in production. Our steam atomization technology is helping waste-to-energy plants optimize energy generation and our pumps and valves are finding new applications in carbon capture and storage (CCS) and the transportation of green ammonia.

Our comprehensive aftermarket support offers customers the ability to augment operational parameters or modify processes to accommodate new feedstocks as they emerge, while also ensuring that renewable energy operations continue to function efficiently throughout their design life. We also continue to support existing customers in conventional power and energy to decarbonize their operations.

Whether you are converting your existing plant or developing a new renewable energy site, Celeros FT can add value at every stage of the lifecycle to improve overall efficiency and lower carbon intensity.

Sectors

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Biofuels

The use of biofuels is going to be a major contributor to achieving a more sustainable future - curbing the effects of climate change by achieving significant reductions in greenhouse gas emissions.

Carbon Capture

Carbon Capture

Carbon Capture and Storage (CCS) is critical to the decarbonization of the global energy supply and many essential industrial processes.

Energy from Waste

Energy From Waste

The use of Energy from Waste facilities convert waste into renewable energy, promoting sustainability by reducing the reliance on fossil fuels, minimizing waste going to landfills, and providing a source of clean energy for communities.

Hydrogen

Hydrogen

Hydrogen, as a versatile and clean energy carrier, promotes sustainability by offering a low-carbon alternative for transportation, heating, and industrial processes, with only water as a byproduct, and by enabling the integration of renewable energy sources into the grid through energy storage and conversion.

Offshore Wind

Offshore Wind

Offshore renewable energy, such as offshore wind farms and wave/tidal energy, contributes to sustainability by harnessing clean and abundant sources of energy from the ocean, reducing greenhouse gas emissions, and supporting the transition to a more sustainable and renewable energy mix.

Low Carbon Ammonia

Low Carbon Ammonia

Clean ammonia offers an attractive solution to decarbonize hard-to-abate sectors through being a superior clean solution across four sizable segments.‚Äč

Facts and Figures

To find out more about the importance of renewable energy, as well as important facts and figures surrounding the renewable industry, click below:





















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Our dedicated team of engineers have a wealth of knowledge and experience in the Power industry. Contact our team to discuss your requirements today.

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