Clean Power Capital Corp. (CSE: MOVE)(FWB: 2K6)(OTC: MOTNF) (“Clean Power” or the
“Company” or MOVE ). The Company is pleased to provide additional information about the technology being developed by PowerTap Hydrogen Fueling Corp. (“PowerTap”), an investee company of Clean Power. PowerTap’s third generation onsite hydrogen production module unit is enhanced for blue hydrogen classification via Advanced Carbon Capture (https://cleanpower.capital/news/powertaps-blue-hydrogen-uses-innovative-carbon-capture-system/) and using Renewable Natural Gas (RNG) as its main feedstock to generate Blue Hydrogen.
Common sources of RNG, also referred to as biomethane or upgraded biogas, include landfills, animal manure, food scraps and wastewater sludge. With these “wet” wastes, bacteria break down organic matter and produce methane, carbon dioxide, and other gases and solids through a process referred to as anaerobic digestion. The resulting biogas can then be processed or �
The promise of a hydrogen economy to replace fossil fuels is commonly centered on the potential for green hydrogen, generated via electrolysis of water with carbon-free electricity. But the vast majority of today’s industrial hydrogen production is gray, made from natural gas via steam methane reforming a process that emits carbon dioxide but at a low cost that electrolysis will struggle to beat over the coming decades.
But natural gas can also be converted to hydrogen without the carbon emissions, via another spectrum of the hydrogen palette. These include blue hydrogen” steam methane reforming with carbon capture and storage or another technique, methane pyrolysis, that had earned the moniker of turquoise for merging blue and green.
[co-author: Mostafa Al Khonaizi ]
Hydrogen is not found freely in the atmosphere, and the pathways of producing hydrogen differ significantly in their carbon intensity. These pathways are typically referred to by colors grey, blue, and green based on the various inputs required to produce the hydrogen, with conventional means of producing hydrogen emitting most significant carbon dioxide into the atmosphere.
Grey Hydrogen
Grey hydrogen is produced using fossil fuel hydrocarbon feedstocks, most typically, natural gas. As such, it is the most carbon-intensive pathway of generating hydrogen. The conventional methods use either steam methane reforming or autothermal reforming processes to separate hydrogen from carbon and make up about 75% of total hydrogen production.
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The report provides a regional analysis of the hydrogen market, including the following regions: Asia Pacific, Europe, North America, Middle East & Africa, and Latin America. The report also provides a detailed analysis of the COVID-19 impact on the hydrogen market.
On the basis of color, hydrogen can be categorized into four different groups. These are as follows: Grey Hydrogen, Blue Hydrogen, Brown Hydrogen, and Green Hydrogen. There are mainly three methods of hydrogen production, which are Steam Methane Reforming (SMR), Coal Gasification, and Electrolysis.
Hydrogen can be used in various applications, including road transport, maritime and air transport, buildings, power generation and storage, chemicals, oil refineries and biofuels, iron and steel, and electricity storage. The hydrogen market can be segmented on the basis of technology and application.
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