Supported by advanced wind tunnel testing and rigorous performance analysis, Ekanam is engineered to meet the highest international standards of structural safety and occupant comfort. The towers have been engineered to withstand gravity, wind, and seismic forces while maintaining structural performance significantly beyond prescribed safety benchmarks. To further validate and optimize the design, the towers underwent wind tunnel testing by RWDI (Rowan Williams Davies & Irwin), a Canada-based global leader in wind engineering. Such testing is typically reserved for some of the world’s most demanding high-rise developments.
The project is led by structural engineer Syed Majid Hashmi, Managing Director, KMH Engineering, who has more than 28 years of experience in skyscraper and super-tall building design of numerous landmark towers exceeding 300 metres in height. According to him, the project presented a unique opportunity in designing three slender high-rise towers in a seismically active region. Meeting the ambitious architectural aspirations required an integrated approach from the earliest stages of development, to create a structural system that delivers exceptional stability, efficiency, and resilience.Supported by advanced wind tunnel testing and rigorous performance analysis, Ekanam is engineered to meet the highest international standards of structural safety and occupant comfort.
Syed Majid Hashmi Managing Director
KMH Engineering
KMH Engineering has designed some of the world’s most complex high-rise and super-tall structures across India, the UAE, Oman, Hong Kong, and Jordan, including the world-record-holding Princess Tower in Dubai.
Ekanam is being built with an uncompromising commitment to engineering excellence, safety, and long-term value by bringing on board a structural engineering firm that has designed some of the world’s most iconic residential towers.
Payas Agarwal, Director
Great Value Realty
