- “sustainable Gas Production: Breakthrough Technologies And Environmental Impact”
- Graforce And Worley To Jointly Scale Methane Electrolysis Technology In Apac
- The State Of Clean Technology Manufacturing
- Voestalpine Testing Hydrogen Plasma For Green Steel Production
“sustainable Gas Production: Breakthrough Technologies And Environmental Impact” – Refinery technology can significantly reduce preventable plant losses, which account for 80% of total losses in the oil and gas industry.
By implementing digital technology to empower workers, implement asset and production forecasting, real-time analytics, and create virtual representations of physical assets, refineries can better identify the causes of lost production and create a safer work environment.
“sustainable Gas Production: Breakthrough Technologies And Environmental Impact”
Digital technologies such as IoT sensors and drones enable remote monitoring and control of refinery assets, reducing the need for on-site inspections and maintenance. This reduces the number of personnel required to be on site, improves safety and allows for more proactive maintenance.
Graforce And Worley To Jointly Scale Methane Electrolysis Technology In Apac
Machine learning algorithms can be used to analyze data from IoT sensors and other sources to predict when equipment is likely to fail. This enables preventive maintenance to be planned, reducing the risk of unplanned downtime and increasing efficiency.
A digital asset management system enables real-time monitoring and management of all refinery assets. It improves safety by properly maintaining all assets and increases efficiency by better planning and coordinating maintenance activities.
Robotics and automation technologies can be used to automate repetitive and dangerous tasks, such as pipeline inspections. It improves safety by reducing the risk of human error and increases efficiency through more consistent and accurate inspections.
Virtual reality and other simulation technologies can be used to train workers in a safe and controlled environment, reducing the risk of accidents and increasing efficiency through more effective training.
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Digital twins are virtual representations of physical assets that allow them to simulate real-world situations. It improves safety by testing and validating new designs and procedures before they are implemented in the field, and increases efficiency by better planning and optimizing operations.
Advanced cybersecurity technologies can be used to improve security by protecting manufacturing assets from cyberattacks, reducing the risk of disruptions, and increasing efficiency by ensuring the safe and reliable operation of digital systems.
Big data analytics can be used to gain insights from large volumes of data generated by refinery operations. This improves safety and enables more informed decision-making by allowing potential risks to be identified.
Process Digital Twins are used to monitor and optimize refinery performance, improve safety by reducing the risk of process breakdowns, and provide better process control.
Towards Circular Plastics Within Planetary Boundaries
Digital technologies such as video conferencing and collaboration software allow teams to collaborate remotely, improve security by reducing the need for travel, and enable faster decision-making and problem-solving.
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Green Intelligence: Why Data And Ai Must Become More Sustainable
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The State Of Clean Technology Manufacturing
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For Many, Hydrogen Is The Fuel Of The Future. New Research Raises Doubts.
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Voestalpine Testing Hydrogen Plasma For Green Steel Production
The use of sustainable aviation fuel is on the rise, but what exactly is it?
SAF stands for Sustainable Aviation Fuel. It is produced from sustainable feedstocks and is chemically very similar to traditional fossil jet fuels. Using SAF will reduce carbon emissions over the life of the fuel compared to the traditional jet fuel it replaces. Some typical feedstocks are cooking oil and other waste palm oils of animal and vegetable origin; Solid waste from homes and businesses, such as packaging, paper, textiles, and food scraps, can end up in landfills or incineration. Other potential sources include waste wood and forestry wastes such as energy crops, including fast-growing plants and algae. Air’s SAF is currently made from used cooking oil and waste animal fat.
Jet fuel contains a lot of energy for its weight, and this energy density has really enabled commercial flight. Today, we depend on this type of fuel in the aviation industry because there is no other viable option for transporting groups of people over very long distances quickly. A return flight ticket between London and San Francisco has a carbon footprint of almost 1 ton of CO2e. With the aviation industry expected to reach more than 8 billion passengers by 2050, it’s important that we work to reduce aviation’s carbon footprint, and SAF is one way Air is doing that.
SAF can reduce carbon emissions by up to 80% over the life of the fuel compared to conventional jet fuel, depending on the sustainable raw materials used, production methods and the airport’s supply chain.
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There is a portfolio approach when it comes to the acquisition of SAF Air. We agree to contract with third-party manufacturers, and this security of demand helps secure investment for these third parties. Second, we invest in third-party manufacturing facilities. Air’s partnership with California-based Fulcrum is one example. Air entered into a strategic partnership with Fulcrum BioEnergy in 2016, and Fulcrum is building its first plant in Reno, Nevada, to produce sustainable transportation fuels from household waste. Fulcrum plans to build additional facilities that will provide air to SAF from several different plants. Third, it is investing in its own processing plants and facilities. An example of this is the sale of ISCC plus
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