Nexergy Strengthens Leadership team with Fiona Tordoff as COO and Maryam Uz as Company Secretary.
London, UK, September 26, 2024 – Nexergy Holdings PLC is proud to announce the addition of Fiona Tordoff as Chief Operating Officer (COO) and Maryam
Lorentz specialise in the production of green hydrogen, a zero-emission energy source poised to revolutionise the energy sector. By harnessing the power of solar energy and innovative catalytic technology, they produce hydrogen in an efficient, cost-effective manner directly where it will be used, eliminating the need for long-distance transportation. Here is an overview of hydrogen gas, its types, applications, and the unique approach that sets Lorentz apart in the drive towards a sustainable energy future.
Hydrogen gas (H₂), the simplest and most abundant element in the universe, consists of two hydrogen atoms bonded together. It’s versatile and has a high energy content, making it a potential fuel source across various applications. When used in fuel cells, hydrogen combines with oxygen to generate electricity, with water vapor as the only byproduct.
However, the environmental impact of hydrogen depends on its production method: while green hydrogen produces no emissions, other forms like grey or blue hydrogen can have significant environmental impacts due to the associated carbon emissions. This variability makes the use of hydrogen complex in the global energy landscape.
Lorentz in Advanced Financial Network
Produced through Steam Methane Reforming (SMR), this is the traditional method where natural gas is subjected to high-temperature steam to produce hydrogen. Unfortunately, the process emits significant carbon dioxide, contributing to greenhouse gas emissions and climate change. Despite its environmental drawbacks, it’s widely used due to its relatively low production cost. This type is primarily used in industries that need hydrogen in bulk, like petroleum refining and fertiliser manufacturing. It’s also used for methanol production and chemical processes. Despite its high carbon emissions, it’s popular due to its relatively low production cost.
Similar to grey hydrogen, this method also relies on SMR but incorporates Carbon Capture and Storage (CCS) technology to trap and store the carbon dioxide emissions underground. This reduces its environmental impact significantly, offering a lower-emission alternative. It provides a bridge solution while green hydrogen technology becomes more economically feasible. With its reduced carbon footprint compared to grey hydrogen, blue hydrogen is increasingly utilised for cleaner industrial processes. It’s also suitable for power generation in conjunction with carbon capture technology, helping reduce emissions in existing fossil-fuel power plants. This type is primarily used in industries that need hydrogen in bulk, like petroleum refining and fertiliser manufacturing. It’s also used for methanol production and chemical processes. Despite its high carbon emissions, it’s popular due to its relatively low production cost.
The cleanest and most sustainable option, green hydrogen is generated through electrolysis, a process that splits water into hydrogen and oxygen using renewable electricity. With no carbon emissions during production and the use of sustainable energy sources like wind or solar power, green hydrogen represents the future of carbon-neutral energy and is crucial for global decarbonisation efforts. Green hydrogen is the most sustainable option, crucial for future-focused zero-emission goals. It powers vehicles, generates electricity, and aids decarbonisation in challenging sectors like steel manufacturing and shipping. Its versatility and clean production drive the low-carbon economy.
Like all fuels, hydrogen poses certain risks. However, when handled responsibly, it can be safer than conventional fuels like gasoline or propane. Here are some reasons why:
Unlike traditional fuels, hydrogen is non-toxic. It poses no risk of soil or water contamination in the event of a leak.
Hydrogen is lighter than air and disperses quickly, reducing the risk of ignition at ground level.
A hydrogen flame produces less heat than a gasoline fire, which minimises the chance of secondary fires.
Hydrogen requires higher oxygen levels to become explosive than gasoline.
Like all fuels, hydrogen poses certain risks. However, when handled responsibly, it can be safer than conventional fuels like gasoline or propane. Here are some reasons why:
To learn more about hydrogen safety, you can visit these pages
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