Power-to-X
Electrification of the chemical industry is a crucial part of the clean energy revolution, offering a versatile and sustainable solution for reducing carbon emissions.
With decades of experience, our team of experts guides you through every stage of your P2X project development, from feasibility studies to detailed engineering and project management.
Join us in exploring the endless possibilities of P2X and its role in a greener, more sustainable world.
Green ammonia
Ammonia production via electrochemical processes represents a promising green technology that addresses the environmental challenges associated with conventional ammonia synthesis methods, such as the Haber-Bosch process. It is produced using renewable energy sources such as wind, solar, or hydropower to drive the electrolysis of water, generating hydrogen without emitting CO2. This hydrogen is then combined with nitrogen from the air to create ammonia through a carbon-free process.
Green ammonia not only serves as an eco-friendly fertilizer but also holds potential as a zero-emission fuel for transportation and energy storage. By adopting green ammonia, industries can significantly reduce their carbon footprint and contribute to a circular economy.
Green methanol
Green methanol is a renewable alternative to traditional methanol, which is typically produced from natural gas. Methanol (CH₃OH), also known as methyl alcohol, has numerous industrial applications, including as a solvent, antifreeze, and in the production of synthetic fuels. Traditionally produced methanol, known as grey methanol, is derived from natural gas or coal, contributing significantly to greenhouse gas emissions.
In contrast, green methanol is produced using renewable energy sources and ensures no harmful emissions during its production. It can be produced from sustainable biomass (biomethanol) or from green hydrogen and captured CO2 (e-methanol). This makes green methanol a promising solution for reducing the carbon footprint of high-emission industries such as maritime transport, supporting the transition to more sustainable energy practices.
Synthetic fuels
Synthetic fuels, also known as e-fuels, are produced by combining renewable hydrogen with captured CO2 through advanced chemical processes like Fischer-Tropsch synthesis. These fuels can provide a sustainable alternative to traditional fossil fuels by significantly reducing greenhouse gas emissions. Synthetic fuels can be utilized in various applications, including transportation and industrial processes, offering a versatile solution for reducing our carbon footprint.
By embracing synthetic fuels, industries can take a significant step towards a greener and more sustainable future.
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Services
Ionect specializes in innovative engineering solutions for the electrochemical industry.
We focus on conceptual studies and implementing cutting-edge green technologies to accelerate the transition to sustainable practices in energy-intensive sectors. With expertise in research, design, and optimization, we help clients achieve sustainability goals while maximizing efficiency.
Whether it's process improvements or integrating renewable energy sources, we're dedicated to driving positive change and creating value for our clients in a rapidly evolving landscape.