Thursday 02 December 2021 - 2:46:18 pm

UAE leverages cloud seeding to tackle water scarcity locally, regionally and globally

  • لمواجهة تداعيات التغير المناخي .. الإمارات توظف تقنيات الاستمطار المبتكرة لمعالجة شح المياه
  • لمواجهة تداعيات التغير المناخي .. الإمارات توظف تقنيات الاستمطار المبتكرة لمعالجة شح المياه

ABU DHABI, 27th October, 2021 (WAM) -- The UAE has adopted state-of-the-art technologies to ensure the sustainability of water resources that are mainly fed by precipitation, as part of the country's leading role in tackling the most pressing global issues that demand urgent action including water security.

Cloud seeding plays a crucial role in reengineering the planet earth through mitigating drought, enhancing water resources and ensuring its sustainability. For nearly two decades, the UAE has carried out cloud seeding operations to effectively tackle water scarcity.

In the following report, the Emirates News Agency (WAM) reviews the UAE's efforts in sustaining water resources. Rain enhancement helps limit global warming and its detrimental effects such as droughts and high-water evaporation rates. Cloud seeding techniques are effectively used to enhance the micro-physical processes within the cloud, helping us harvest more water from the cloud and enhance precipitation by a global average of 18 percent.

The potential future effects of climate change include prolonged drought in some regions and a surge in tropical storms in others. To prevent the long-term consequences of climate change on future generations, the UAE has adopted cloud seeding to offset the lack of natural water resources and increase the amount of rainfall. This has allowed the country to adapt to the challenges of drought in the Arabian Peninsula, and other arid and semi-arid areas across the globe.

The UAE started its cloud seeding operations in 2002 through the National Centre of Meteorology (NCM) to address water security issues. The country followed the conventional approach of igniting hygroscopic flares composed of natural salts (primarily potassium chloride) at the base of convective clouds near the updraft core.

In the early years, the operations targeted frequent summertime convection along the northeastern Hajar mountains. The country’s cloud seeding infrastructure subsequently expanded over the years until suitable cloud candidates were targeted year-round over the entire UAE from 2010 onwards.

The National Centre of Meteorology is the entity responsible for implementing cloud seeding operations across the UAE. The Centre boasts specialised expertise and state-of-the-art infrastructure comprising more than 100 meteorological stations, an integrated network of radars covering all parts of the country, custom-designed aircraft to carry out cloud seeding operations, and a factory to produce high-quality hygroscopic salt flares for use in cloud-seeding operations.

In 2015, the UAE established the UAE Research Programme for Rain Enhancement Science (UAEREP) under the patronage of H.H. Sheikh Mansour bin Zayed Al Nahyan, Deputy Prime Minister and Minister of Presidential Affairs.

The programme aims to promote the scientific advancement of new technology in the field. It provides managed grant assistance to projects targeting innovative research on cloud seeding and the broader field of rainfall enhancement.

Managed by the NCM, the programme supports scientific research in rain enhancement and stimulates the development and deployment of innovative rain enhancement technologies. It offers promising research proposals a grant of up to US$1.5 million distributed over three years with a maximum annual amount of $550K.

Over its three cycles, the programme offered grants to nine innovative research projects. In early 2021, the programme opened its fourth cycle for proposal submission, and the winning proposals will be announced in January 2022. Through its global outreach work, the programme built connections with 1,811 researchers and scientists from 806 institutions in 70 countries and received 451 research proposals over its four cycles.

The awardee projects contributed towards the development of new technologies in rain enhancement, such as the use of nanomaterials, UAVs, cloud simulation rooms, and a jet engine composite system to stimulate local updrafts, among others.

The awardees registered four patents, published 74 peer-reviewed articles in international scientific journals, participated in 97 international conferences, and carried out eight testing campaigns to evaluate the effectiveness of their projects in close collaboration with NCM and under its direct supervision.

Since its inception, the programme has achieved wide global recognition, helping the UAE to bolster its leading status in rain enhancement research. It has become a focal point for facilitating global research collaboration and knowledge transfer to ensure sustainable water resources for countries at risk of water scarcity.

WAM/Rola Alghoul/Esraa Ismail