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Lydian announces pilot demonstration of SAF technology

The SAF technology is designed to reduce greenhouse gas emissions by up to 80% compared to traditional fossil fuel-based aviation.

Introduction

Lydian, a company focused on developing sustainable aviation fuel (SAF) technology, has made a significant breakthrough in its pilot demonstration. The company’s innovative approach to reducing greenhouse gas emissions has garnered attention from the aviation industry and environmentalists alike.

The SAF Technology

Lydian’s SAF technology is based on a process that combines captured CO2, water, and renewable electricity to produce a sustainable fuel. This process is designed to be efficient, scalable, and environmentally friendly. The technology has been tested in a pilot plant, which has shown promising results.

Key Features of the SAF Technology

  • Carbon Capture: The technology captures CO2 from the atmosphere, reducing greenhouse gas emissions. Renewable Electricity: The use of renewable electricity reduces the carbon footprint of the production process. Water Usage: The technology uses water as a reactant, reducing the need for freshwater resources. * Scalability: The technology is designed to be scalable, making it suitable for large-scale production.

    Modular Reactors: A Key to Efficient Energy Production

    The PtL method, which stands for Power-to-Liquid, is a game-changer in the field of energy production. It involves converting excess renewable energy into liquid fuels, such as hydrogen, methanol, or dimethyl ether, which can be used to power vehicles, heat homes, and generate electricity. One of the key benefits of the PtL method is its ability to address the challenges of high electricity demand needed to power the technology.

    Reducing Operating Costs and Easing Grid Pressure

    Lydian’s modular reactors are designed for variable operation, which reduces operating costs and eases pressure on the electricity grid. This is achieved through several key features:

  • Modular design: The reactors are designed to be modular, allowing them to be easily scaled up or down depending on energy demand. Variable operation: The reactors can operate at different power levels, reducing the need for expensive and complex grid upgrades. Efficient energy conversion: The reactors use advanced energy conversion technologies to minimize energy losses and maximize efficiency. ### Lessening Competition for Clean Energy**

    • Lessening Competition for Clean Energy

    The PtL method also lessens competition for clean energy by providing a reliable and efficient source of power.

    The DARPA ExCURSion Programme

    The DARPA ExCURSion programme is a cutting-edge initiative that aims to develop innovative technologies for the sustainable use of carbon in various applications. The programme’s primary objective is to create a more resilient and stable energy system, which is essential for addressing the challenges posed by climate change.

    Key Objectives of ExCURSion

  • Develop novel carbon-based materials and technologies that can be used in energy storage, conversion, and utilization. Enhance the efficiency and sustainability of existing energy systems. Create new business models and revenue streams for the energy sector. ## Lydian’s Contribution to ExCURSion*

    • Lydian’s Contribution to ExCURSion

    Lydian secured a DARPA award through the ExCURSion programme by developing a novel carbon-based material that can be used in energy storage applications.

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