Project

Project Description:

Nord Engineers contributed to the Bharat Vandana Park project in Dwarka, New Delhi, serving as QS Consultant Works for the Department of CPWD. The scope of work included the development of 10 composite structure pylons, each standing 42 meters tall and featuring composite crowns at the top.

  • Department CPWD
  • Role QS Consultant
  • Structure 10 Pylons – and the Connecting Bridge

    (Composite Structure)

  • Height 42 meters each
  • 42 meters each110 CR (Pylons, Crowns and Bridge)

Key Features:

  • Composite Structure: The pylons are designed as composite structures, integrating both steel and concrete to enhance aesthetics, strength and stability
  • Significant Height: Each pylon reaches a height of 42 meters, making them prominent architectural features within the park.
  • Steel and Concrete Crowns: The crowns at the top of the pylons are constructed using a blend of steel and concrete, ensuring durability and aesthetic appeal.
  • Project Cost: Each of the 10 pylons had a cost of around 8 Crore, reflecting the comprehensive structural work and quality materials used.
  • Nord Engineers' role as QS Consultant in this prestigious project underscores their expertise in providing high-quality consultancy services for large-scale developments.

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Challenge

Managing the Construction of Tall Composite Structure Pylons The development of 10 composite structure pylons, each standing at 42 meters tall, presented significant challenges due to the complexity of the design, height, and weight distribution. Ensuring structural stability while integrating composite crowns at the top required precise planning and engineering expertise.

Solution

As QS Consultants, Nord Engineers worked closely with the CPWD Department to provide detailed cost and quality analysis. Advanced engineering software and modeling were used to simulate load-bearing capacities and material stress points. A phased construction approach was adopted to monitor the progress of each pylon's development while maintaining the overall stability of the structure.

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