Authors :
Shankar Somwanshi; Vishal Lokhande; Kiran Sonavane; Ranjeet Patil; Bhushan Meher; Javed khadgaonkar
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/54emwf2p
Scribd :
https://tinyurl.com/42panu6d
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1241
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
A water tank, like a container that stores
liquids, are categorized based on shape studies predict
the analysis and design of rectangular as well as circular
overhead water tanks through the usage of STADD PRO
software. Storage reservoirs, especially overhead tanks,
serve the purpose of storing and distributing water to
consumers. Water supply planning may not have been
adequately done for the recently built Overhead Circular
Tank to meet the increasing demands of the expanding
urban population. Branched distribution systems could
be in several scenarios, including rural irrigation and the
distribution of reclaimed water.
Time is approaching when the need to conserve and
store water becomes so essential. In such moments, it is
crucial to develop cost-effective methods for storing and
distributing water. The water that is stored in overhead
water tanks is strategically placed. The overhead tank is
vital as it serves as a common public utility structure.
The distribution to nearby areas can be done without the
need for pumping!!! The cost efficiency of overhead
storage water tanks relies significantly on the quantity of
concrete and steel needed for tank construction.
As an initial resolution to this issue, it is essential to
develop a water storage project based on STAAD
principles, famously known as Overhead Water
Reservoir. The current study covers the analysis and
design of an elevated circular water tank using
STAAD.Pro V8i. The design involves manual load
calculations and the analysis of the entire structure using
STAAD Pro V8i. The method of design used in the
STAAD.Pro analysis is Limit State Design; the water
tank is being subjected to various loads such as wind
load, deadload, self-weight, and hydrostatic load due to
water.
A water tank, like a container that stores
liquids, are categorized based on shape studies predict
the analysis and design of rectangular as well as circular
overhead water tanks through the usage of STADD PRO
software. Storage reservoirs, especially overhead tanks,
serve the purpose of storing and distributing water to
consumers. Water supply planning may not have been
adequately done for the recently built Overhead Circular
Tank to meet the increasing demands of the expanding
urban population. Branched distribution systems could
be in several scenarios, including rural irrigation and the
distribution of reclaimed water.
Time is approaching when the need to conserve and
store water becomes so essential. In such moments, it is
crucial to develop cost-effective methods for storing and
distributing water. The water that is stored in overhead
water tanks is strategically placed. The overhead tank is
vital as it serves as a common public utility structure.
The distribution to nearby areas can be done without the
need for pumping!!! The cost efficiency of overhead
storage water tanks relies significantly on the quantity of
concrete and steel needed for tank construction.
As an initial resolution to this issue, it is essential to
develop a water storage project based on STAAD
principles, famously known as Overhead Water
Reservoir. The current study covers the analysis and
design of an elevated circular water tank using
STAAD.Pro V8i. The design involves manual load
calculations and the analysis of the entire structure using
STAAD Pro V8i. The method of design used in the
STAAD.Pro analysis is Limit State Design; the water
tank is being subjected to various loads such as wind
load, deadload, self-weight, and hydrostatic load due to
water.
