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Effect of Staging and Shape in RCC and Precast Elevated Water Tanks

 

 

Vaishali Waghmare1, Prof A. B.  Pujari2

1ME Student, KJ’s Educational Institute, KJ College of Engineering and Management Research, Pune, Maharashtra (Affiliated to Savitribai Phule Pune University)

2Associate professor, KJ’s Educational Institute, KJ College of Engineering and Management Research,

Pune, Maharashtra (Affiliated to Savitribai Phule Pune University)

 

 

Abstract
This study explores the effect of staging in RCC (Reinforced Cement Concrete) and precast elevated water tanks, focusing on their design, performance, and safety. Elevated water tanks, integral to water distribution systems, require a robust staging system to ensure structural integrity under dynamic loads, particularly during seismic events. The research examines how various staging configurations RCC and precast affect the overall performance of these tanks. While RCC staging offers higher rigidity and durability, it comes with longer construction timelines and higher labor costs. In contrast, precast systems provide faster construction and cost savings but depend heavily on joint detailing for stability. The study also emphasizes the importance of material properties, seismic design considerations, and load distribution mechanisms. Advanced modeling techniques, including finite element analysis, are employed to assess the structural behavior of both staging systems. The findings aim to optimize the design process, improve safety, and ensure the long-term functionality of elevated water tanks in different environmental conditions.

Keywords: Elevated water tanks, RCC staging, precast staging, seismic performance, load distribution, structural stability, and finite element analysis.

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