DEWA to diversify energy sources & provide 100% of total power from clean energy sources by 2050

The Green Hydrogen project, implemented by DEWA, in collaboration with Expo 2020 Dubai and Siemens Energy at the Mohammed bin Rashid Al Maktoum Solar Park, is the first of its kind in the Middle East and North Africa to produce hydrogen using solar power.

The pilot plant, which spreads over 10,000 square metres, was designed and built to accommodate future applications and testing facilities for different hydrogen uses, including energy generation and transportation.

The world today witnesses an increasing demand to invest in clean and renewable energy sources, which will change the global energy scene in the next few years using environmentally friendly and relatively low-cost energy sources.

In line with this global trend, the use of green hydrogen for power generation and supporting development in several vital sectors is increasing. Studies show that green hydrogen production will increase by 57% annually to reach 5.7 million tonnes in 2030.

Green Hydrogen is produced through electrolysis using renewable energy sources. This technology allows the storage of large amounts of energy for long periods. Hydrogen can be used for re-electrification through gas motors, gas turbines and fuel cells. It can also be used as a feedstock for the chemical industry (ammonia, syn-fuels, green chemicals etc.), as fuel for transportation, a reducing agent for the steel industry, to produce heat for industrial processes, as gas for residential heating and cooking purposes, and also as energy for export.

HE Saeed Mohammed Al Tayer, MD & CEO of DEWA, said that green hydrogen is an environmentally friendly energy source and represents one of the pillars of a sustainable future for accelerating the transition to carbon neutrality. This supports the Dubai Clean Energy Strategy 2050 and the Dubai Net Zero Carbon Emissions Strategy 2050 to provide 100% of the energy production capacity from clean energy sources by 2050.

“The Green Hydrogen project aligns with Dubai’s commitment to sustainability and its unwavering support to energy and climate change issues. It also supports the vision and directives of His Highness Sheikh Mohammed bin Rashid Al Maktoum, Vice President and Prime Minister of the UAE and Ruler of Dubai, to turn Dubai into a carbon-neutral economy by 2050, as well as DEWA’s strategy to diversify energy sources and increase investment by supporting innovation and research and development in energy storage technologies including green hydrogen. This includes green hydrogen, which some describe as the ‘Fuel of the Future’ and will play an important role in the global energy mix and in fighting global warming,” added Al Tayer.

Al Tayer said that DEWA had invited globally reputed consulting companies to submit their offers to develop an ambitious strategy for green hydrogen production. The objectives are to develop the green mobility sector, and reduce carbon emissions from various industries, as well as generate electrical and thermal energy, producing water and other applications.

Waleed Bin Salman, Executive Vice President of Business Development and Excellence at DEWA, said that the Green Hydrogen project at the Mohammed bin Rashid Al Maktoum Solar Park was designed according to the highest safety standards. It also aligns with DEWA’s standards and European and international laws. Siemens Energy, DEWA’s partner in this project, has vast experience in designing and implementing advanced systems that have the highest safety standards and support the development of operations and safe maintenance of the station.

DEWA, in partnership with Emirates National Oil Company (ENOC), is studying building a hydrogen fueling station. This will help achieve the objectives of the Dubai Green Mobility Strategy 2030 to encourage the use of sustainable transportation, as well as the UAE’s Hydrogen Vehicles System, which aims to develop the hydrogen economy in the UAE, and open up local markets to hydrogen vehicles.

News Source: Dubai Media Office