The primary application of hydrogen lies in serving as a raw material for synthesizing various components, notably ammonia. Nevertheless, the utilization of hydrogen as a fuel has gained significant attention recently, particularly as a means to decarbonize energy-intensive and challenging-to-abate sectors like power generation and transportation. Despite this, the majority of hydrogen production still originates from fossil-based sources such as natural gas and coal. Steam Methane Reforming (SMR) stands as the leading process for hydrogen production, contributing to over half of the global hydrogen output. For more information read Optimized Gas Treating, Inc.'s article on "Paint it Blue (Part I): Hydrogen Production by Steam-Methane Reforming " #ProTreat
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Recent Advances in the Development of Hydrogen Generation (PDF Guide) Download PDF Copy- https://lnkd.in/d4k7XGwN (Use Corporate Mail ID for Top Priority) Hydrogen production is the industrial methods for generating hydrogen gas. There are four main sources for the commercial production of hydrogen: natural gas, oil, coal, and electrolysis of water; which account for 48%, 30%, 18% and 4% of the world’s hydrogen production respectively. Hydrogen plays an important role in the chemicals and oil & gas industry. Hydrogen extracted from various processes is classified into three types blue hydrogen, grey hydrogen, and green hydrogen. Grey hydrogen is hydrogen produced from fossil fuel resource where carbon capture and storage process is not implemented. Furthermore, this type of hydrogen releases carbon dioxide into environment as a byproduct. #hydrogen #hydrogenproduction #electrolysis #bluehydrogen #greenhydrogen #fossilfuel #carboncapture #co2 #renewableenergy #energytechnology #energyindustry #oilandgasindustry #greyhydrogen
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Have you seen the new Global Hydrogen Review Spotlight with Atlas Copco Gas & Process: https://bit.ly/3uXyP0Y This intriguing interview dives deeper into Atlas Copco Gas & Process’ recent article ‘Meeting new demands’, giving you the opportunity to explore how turboexpander cooling technology can help to support the expansion of hydrogen liquefaction. To find out more, give the Spotlight a watch over on our website: https://bit.ly/3uXyP0Y #GlobalHydrogenReview #AtlasCopco #Hydrogen
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𝐇𝐲𝐝𝐫𝐨𝐠𝐞𝐧 𝐆𝐞𝐧𝐞𝐫𝐚𝐭𝐢𝐨𝐧 𝐌𝐚𝐫𝐤𝐞𝐭 𝐀𝐧𝐚𝐥𝐲𝐬𝐢𝐬 𝐚𝐧𝐝 𝐅𝐨𝐫𝐞𝐜𝐚𝐬𝐭 𝐭𝐨 𝟐𝟎𝟑𝟑 𝐃𝐨𝐰𝐧𝐥𝐨𝐚𝐝 𝐑𝐞𝐪𝐮𝐞𝐬𝐭 𝐒𝐚𝐦𝐩𝐥𝐞: https://lnkd.in/gk45mSdc Hydrogen production is the industrial method for generating hydrogen gas. There are four main sources for the commercial production of hydrogen: natural gas, oil, coal, and electrolysis of water, which account for 48%, 30%, 18%, and 4% of the world’s hydrogen production, respectively. Hydrogen plays an important role in the chemicals and oil & gas industries. Hydrogen extracted from various processes is classified into three types: blue hydrogen, grey hydrogen, and green hydrogen. Grey hydrogen is hydrogen produced from fossil fuel resources where the carbon capture and storage process is not implemented. Furthermore, this type of hydrogen releases carbon dioxide into the environment as a byproduct. 𝐊𝐞𝐲 𝐏𝐥𝐚𝐲𝐞𝐫𝐬 Air Liquide (France) Air Products Inc. (US) Cummins Inc. (US) ENGIE (France) Iberdrola, S.A. (Spain) ITM Power (UK) Linde plc (Ireland) Siemens (Germany) Uniper (Germany) #gis #analysis #demand #growth #like #repost #HydrogenGeneration
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I think hydrogen is emerging as a key element in the energy transition because when it’s used as a fuel, no carbon dioxide (CO2) is released at the point of combustion. Replacing more natural gas with hydrogen as a fuel for industrial burners could lead to a widespread reduction in emissions at manufacturing operations worldwide. #oilandgasindustry #hydrogen #hydrogenenergy #naturalgas #combustion #emissionsreduction #oilandgas https://lnkd.in/dAJsvgur
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🔋 Without demand for clean hydrogen, there is no business case! 🌍 Join us in these sessions "Clean hydrogen demand in the Midwest and beyond" to connect with companies actively seeking to purchase clean hydrogen and learn what price they’re willing to pay for this green molecule. ✅ Access it here RENMAD H2 USA 👉 https://bit.ly/3Zkaj7n What to expect 🟢 Hear from manufacturers of clean ammonia, methanol and synthetic fuels that are seeking clean H2 🟢 Understand how clean hydrogen could play a role in power generation and storage 🟢 Get to grips with H2 demand in heavy industry, including steel, cement, and other sector ✅ Access it here RENMAD H2 USA 👉 https://bit.ly/3Zkaj7n Speakers: - Allison Hannon Holly / Pattern Energy Group - Ian Champ / Clean Air Task Force - Seth W. Snyder / Clean Energy Venture Group
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Natural gas is the 'cleanest fossil fuel' since it has the highest amount of hydrogen in any hydrocarbon fuel. To enable a faster and cost-effective energy transition we must devise technologies that utilize natural gas resources for energy generation, with minimum CO2 and methane emissions footprint. One such technology is Dry Methane Reforming (DRM), which converts methane and CO2, the two most potent greenhouse gases into syngas, a mixture of hydrogen and carbon monoxide. It has gained recent attention as a technology that could replace traditional steam methane reforming (SMR) for syngas generation. Dry methane reforming is not commercialized yet due to the primary challenge of severe carbon deposition that deactivates the catalyst (coking). However, BASF and Linde have together deployed mitigation measures to make DRM possible at a demonstration scale and are on track to soon launch the first commercial DRM plant. #Drymethanereforming #hydrogen #steammethanereforming #biogas #naturalgas #catalyst #emergingtechnology #futurebridge
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State regulators and potential project investors need to scrutinize assertions that #hydrogen will be widely used in methane-fired turbines, as our new report concludes that these assertions are designed to obscure the myriad shortcomings and unanswered questions associated with using hydrogen in methane-fired turbines. In the report, Dennis Wamsted asserts that lack of supply, lack of pipeline infrastructure, and lack of storage capacity will slow and perhaps entirely halt the widespread use of hydrogen as a replacement for methane in turbine generators. Key findings: Lack of supply - The U.S. produces about 10 million tons of hydrogen every year, virtually all of which is consumed in the petrochemical and fertilizer sectors. Any hydrogen blending in the power sector would require new production, and a lot of it. Lack of pipeline infrastructure - Getting hydrogen to power plants would require the construction of thousands of miles of new pipelines. The time and money required for this buildout would slow the transition from #fossilfuels. Lack of storage capacity - The U.S. #gas network is reliable because of the system's significant amount of storage capacity; there is no comparable hydrogen storage infrastructure. Building that infrastructure would be costly and time-consuming, with many questions still unanswered regarding the safety of storing hydrogen. For more, read the full report: https://hubs.li/Q02JCCKg0 #energytransition
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Module Monday | Our NEW Hydrogen Production module covers the following topics: - Hydrogen production overview - Steam methane reforming - Electrolysis - Other methods of Hydrogen production This module is for anyone interested in an awareness of what Hydrogen is and how it can be used in various industries to assist in the energy transition to a lower carbon-emitting future. Module details here: https://buff.ly/3VYMYqk #PetroSkills #hydrogen #HydrogenProduction #oilandgas #oilgas #petroleum #petroleumindustry #oilandgasindustry #oilfield #oil #elearning #training #module
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Power isn’t #hydrogen [infrastructure] ready…and won’t be anytime soon. My colleague Dennis Wamsted in his latest report explores the challenges in realizing any scale of H2 fueled power generation. Despite combustion being a low value use of a high value good, the prohibitive costs of H2 production, transportation and storage - and the lengthy timelines required to realize those assets - do not make fiscal or economic sense. This is all the more costly when compared to readily available - and affordable- solar, wind and storage. Institute for Energy Economics and Financial Analysis (IEEFA)
State regulators and potential project investors need to scrutinize assertions that #hydrogen will be widely used in methane-fired turbines, as our new report concludes that these assertions are designed to obscure the myriad shortcomings and unanswered questions associated with using hydrogen in methane-fired turbines. In the report, Dennis Wamsted asserts that lack of supply, lack of pipeline infrastructure, and lack of storage capacity will slow and perhaps entirely halt the widespread use of hydrogen as a replacement for methane in turbine generators. Key findings: Lack of supply - The U.S. produces about 10 million tons of hydrogen every year, virtually all of which is consumed in the petrochemical and fertilizer sectors. Any hydrogen blending in the power sector would require new production, and a lot of it. Lack of pipeline infrastructure - Getting hydrogen to power plants would require the construction of thousands of miles of new pipelines. The time and money required for this buildout would slow the transition from #fossilfuels. Lack of storage capacity - The U.S. #gas network is reliable because of the system's significant amount of storage capacity; there is no comparable hydrogen storage infrastructure. Building that infrastructure would be costly and time-consuming, with many questions still unanswered regarding the safety of storing hydrogen. For more, read the full report: https://hubs.li/Q02JCCKg0 #energytransition
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Hydrogen pipelines the ‘path the industry must take,’ H2 View webinar hears: In order to scale-up and the advance the hydrogen market, pipelines need to be the focus to ensure distribution, a BrainDrip-sponsored H2 View webinar has heard. #hydrogen #HydrogenNow #H2View
Hydrogen pipelines the ‘path the industry must take,’ H2 View webinar hears
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