Bee’ah, the Middle East’s leading sustainability pioneer, and National Central Cooling Company (Tabreed), the leading international district cooling developer based in the UAE, have signed a partnership agreement to jointly explore the development of large-scale district cooling projects in the Emirate of Sharjah.
The partnership was signed today by Khaled Al Huraimel, Group CEO of Bee'ah, and Bader Saeed Al Lamki, CEO of Tabreed.
Under the agreement, Bee’ah and Tabreed will develop potential district cooling projects at locations across Sharjah. District cooling is more environmentally friendly and cost-efficient than traditional space cooling methods and in line with Bee’ah’s vision to drive a more sustainable quality of life.
Commenting on the agreement, Bee’ah’s Al Huraimel said, “Bee’ah has made significant investments in sustainability and infrastructure in Sharjah to date. Our partnership with Tabreed is a further illustration of our continued commitment to seek new solutions that are more sustainable and cost-competitive. The UAE faces extreme weather conditions, especially during summer, but through new district cooling projects, we hope to tackle this issue through more energy-efficient measures.”
Bader Al Lamki, Tabreed’s Chief Executive Officer, said, “We are pleased to be partnering with Bee’ah to explore opportunities to bring reliable, sustainable and cost-efficient district cooling solutions to the Emirate of Sharjah. Our strong core business, innovative technology, experienced team and structuring capabilities have made Tabreed the partner of choice, and we look forward to contributing to the continued growth and long-term sustainability of the Emirate.”
District cooling is a key part of the district energy systems that are the foundation of sustainable, economic and urban development. Ideal for large-scale, high density developments such as downtown business districts, airports, university campuses, residential towers and commercial establishments. District cooling relies on a centralized cooling plant that provide cooling to buildings within its grid.
The plant supplies chilled water via insulated underground piping networks to a cluster of buildings in a service area, or district. Energy Transfer Stations (ETS) then utilizes the chilled water to force cold air inside the buildings to produce an air-conditioned environment with warm water then returning to the plant to be re-chilled and redistributed.
In some cases, plants use nearby sea water instead of potable water, leading to further environmental benefits and water savings. District cooling is highly efficient and cost-effective, providing cost savings from building operations and maintenance to reduce energy consumption, while still efficiently delivering on cooling requirements. The collaboration is designed to increase the use of this energy-efficient district cooling solution among some of the largest projects in Sharjah.
Space cooling represents up to 70 percent of electricity consumption at peak times in hotter countries such as the UAE. The International Energy Agency estimates that the energy used by such cooling will more than triple by 2050. With 60 to 80 percent less energy consumption than the average conventional cooling systems, centralized district cooling will play a major role in tackling this global challenge.