Stonk Research

2.4 Green Hydrogen

After reading the articles from [2] I believe that green hydrogen will be essentially to fully reach zero emissions.

We still need planes, fuel that can do heavy loads for trucking, hydrogen is very verstaile and I believe will do quite well.

One company (Current Water Technologies), is going into the green hydrogen market in an interesting way. They are producing a technology to generate green hydrogen from wastewater, it makes a lot of sense to me. On another note, they reported record sales of 1.5 million just for january and feburary, the likelyhood of this company needing to raise more money soon is unlikely.

Also, they are expanding to aquaculture, if they manage to succeed with their technology, they will do quite well. Their technology can remove toxic ammonia from fishtanks that happen naturally. If their technology can create green hydrogen from waste product, this is a win win for everyone. I think this company is worth holding for a long time.

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Figure 2.1: ghg Emissions by section

An estimated 5 trillion dollar for aquaculture alone [2] to reach net zero by 2050, this would imply that we require hydrogen for shipping, transportation, etc.

The potential of green hydrogen for is immense [3], for shipping it is an essential server. Companies like have already committed to using greener LNG, hydrogen is an natural extension of this.

From the water way technologies (

Independent testing of the ESD system has demonstrated its capabilities. The tests targeted 85% removal of specific compounds added separately to tap water. The target was achieved in all cases. [4]

Why Electro-static Deionization?

  • • Reduce TDS

  • • High removal efficiencies

  • • High water recovery

  • • No chemical additives

  • • Low maintenance

  • • Low energy consumption

“C”WTI’s AmmEL–H2 technology has the potential to be one of the world’s most environmentally and economically beneficial hydrogen technologies. It not only produces green hydrogen; it also simultaneously removes toxic ammonia from wastewater. As the AmmEL–H2 system benefits from two revenue streams, this process is an important alternative to traditional electrolyzers that are used only to produce hydrogen gas [5].