However, meticulous attention must be paid to the selection of PSV discharge line sizes, as the strap dimensions of these devices depend on the line size. Ensuring the correct line size is imperative to maintain the accuracy of the monitoring system. Additionally, since these devices are battery-powered, the sensor update rate directly influences battery life. Typically, an update rate of one to two minutes is adequate for such applications, resulting in a battery life of two to three years. This equilibrium between update rate and battery longevity is essential for minimising maintenance and operational costs. Moreover, the performance of the system is heavily reliant on a stable, reliable wireless network. Therefore, incorporating redundancies into the network design is advisable to ensure continuous monitoring and data transmission, thereby enhancing the overall reliability and effectiveness of the flare monitoring system. Conclusion India’s commitment to achieving net-zero emissions by 2070 underscores the necessity to decarbonise critical sectors, including oil and gas. The oil and gas industry, a significant contributor to greenhouse gas emissions, faces the challenge of reducing emissions while still maintaining operational efficiency. IIoT technologies offer a transformative approach to this challenge. The integration of IIoT solutions, encompassing real-time sensors, Edge computing, and artificial intelligence-driven analytics, facilitates continuous monitoring of flare stacks. This technological convergence enables the detection of anomalies, predictive maintenance, and optimisation of flare operations, thereby reducing the volume of flaring. The use of IIoT technologies in flare monitoring contributes to environmental sustainability and offers economic benefits. By preventing the loss of valuable resources like hydrogen and hydrocarbons, these systems facilitate cost savings and promote resource optimisation. Also, the data analytics capabilities of IIoT platforms enable predictive maintenance and operational optimisation.
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May 2023 Decarbonisati n Technolo gy Powering the Transition to Sustainable Fuels & Energy
DECARBONISATION OF REFINING VALUE CHAINS
UTILISATION OF CAPTURED CARBON RENEWABLE HYDROGEN & HYDROGEN SAFETY
SUSTAINABLE AVIATION AND MARINE FUELS
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Decarbonisati n Technology Powering the transition to sustainable energy
Steps to decarbonize the oil refining industry
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Sustainable solutions with industrial clusters: Part 1 ... Minimise emissions with control and monitoring solutions ... Ultrapure water for electrolysis ... The challenges of transitioning to green hydrogen ... Strategies to maximise profitability in HVO complexes ... Decarbonising the aviation industry ... Producing synthetic fuels from renewable feeds ... A path to net-zero emissions for the oil and gas industry ... Primary data sharing for supply chain decarbonisation ... Addressing the energy trilemma through advanced gasification ... Unlocking high-pressure ammonia. February 2024 Issue
February 2024 Decarbonisati n Technolo gy Powering the Transition to Sustainable Fuels & Energy
SYNTHETIC FUELS, BIOFUELS AMMONIA, METHANE MONITORING & CONTROL
INDUSTRIAL CLUSTERS HYDROGEN, PURE WATER
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Reducing emissions with sustainable aviation fuel
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10 key takeaways: The material impact of IRA on decision-making Nineteen months on, what impacts has the landmark Inflation Reduction Act of 2022 (IRA) had on the net zero transition investment landscape and supply-demand ... Pave the way for greener, more efficient thermal systems (White Paper) - Process heating is a critical part of any hydrocarbon processing. Traditionally, this heating has been done by burning fossil fuels (natural ... The challenges of transitioning to green hydrogen Green hydrogen is a significant and promising source of renewable energy, but it faces several economic, technical, and regulatory challenges. Sustainable solutions with industrial clusters: Part 1 Decarbonising an industrial cluster requires a methodical techno-economic evaluation based on the carbon abatement cost curve. Strategies to maximise profitability in HVO complexes A review of some of the challenges involved in processing hydrotreated vegetable oil and the available solutions to optimise plant profitability.
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