With South Africa reaching an agreement to launch a $1 billion blended finance fund to accelerate the development of the green hydrogen sector, the country is well on its way to pursue and harness this energy resource. The SA-H2 fund is supported by the climate-centric finance investment firm, Climate Fund Managers (CFM), together with Invest International of the Netherlands, financial services group Sanlam, the Development Bank of Southern Africa, and the Industrial Development Corporation (IDC), in collaboration with other strategic partners.
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However, to harness the benefits that come with green hydrogen, parties must meet three critical requirements.
Improve knowledge, design and engineering results
The path towards efficient green hydrogen production and utilisation is paved with new technologies and new thinking. Also, many individuals still lack the necessary training and skills needed to support the hydrogen economy.
Integrated engineering using a digital twin, and process modelling, are key technology solutions that can assist with simulations optimised for training and scenario planning, while also creating a virtual representation for production and design.
In comparison to other renewable energy resources, the production and use of hydrogen is still quite inefficient. According to the International Energy Agency (IEA), more than 99% of dedicated hydrogen production is currently based on fossil fuels, mainly the steam reforming of natural gas and coal gasification. Getting on track with the Net Zero objectives requires the rapid scale-up of low-emission hydrogen, which leads to a remarkable increase in electricity demand in the short term.
The good news is that an estimated $500 billion will be spent globally on the development of hydrogen projects over the next decade, of which approximately 70% will target green hydrogen production. This investment is expected to push low-carbon hydrogen production capacity beyond 10 million tons annually by 2030.
Safety and efficiency for improved operations
While hydrogen is a not a toxic gas, it is still highly flammable and relatively complex to de-risk. Moreover, the severity and frequency of damage related to hydrogen is dependent on the extent to which the gas has been blended with other materials. In short, hydrogen should be consistently monitored through a combined safety, power, and process control system. On top of the safety regulations needed during production, the massive consumption of power for green hydrogen production also makes power efficiency critically important.
Tools like predictive analytics and advanced process control can help producers achieve maximum plant uptime and efficiency. Popular technology tools like artificial intelligence (AI) and machine learning (ML) also help to improve analytics for optimised asset performance. Digital twin technology, combined power and process control systems, integrated safety, and predictive analytics should all be considered by green hydrogen developers as must-have solutions.
Requirements for green certification
It is likely that, in some cases, producing renewable energy close to the green hydrogen production facility may not be possible. Also, there may be some independent renewable energy producers that want to sell their produced energy to green hydrogen producers.
Here, the power will be transmitted to the green hydrogen production facility through the grid. When grid power is used for green hydrogen production, it becomes important for the producer to know that the produced hydrogen is generated from green electrons. This certification will be necessary when applying for a green hydrogen rebate from authorities. A record of transactions using systems such as blockchain will provide a feasible solution to obtain these certifications, and this will have to be adopted by power utility companies, hydrogen producers and end users.
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