In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/5s08L3
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/w714Wn
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/Q4E5SW
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/7MT3xD
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/I342DC
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/STNl2x
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/XuTNbL
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/PhriXR
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/X2LTkB
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Manager @Wood Mackenzie | Leader | Driving Revenue Growth and Market Expansion | Expert in Pipeline Conversion and Stakeholder Management
In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/T2xfW7
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In the case of #bluehydrogen, emissions can come from #upstream natural #gas production, transportation, reforming and energy use. The bulk of the carbon dioxide emissions are produced in the reformer, which splits hydrogen out of hydrocarbons. In principle, almost all these emissions can be captured and stored. However, capturing more than 60% of the carbon dioxide from hydrogen production is costly and has yet to be proven at scale. Discover more in our latest #WMHorizons insight: https://okt.to/WjhOwp
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