Authors :
Brijesh Thapa; Prashant Kumar Sah; Shubh Kasana; Harshpal; Vishwas Kumar; Tribhuwan Singh
Volume/Issue :
RISEM–2025
Google Scholar :
https://tinyurl.com/23hes8x7
Scribd :
https://tinyurl.com/bdkjbv6h
DOI :
https://doi.org/10.38124/ijisrt/25jun171
Abstract :
This paper presents the comprehensive design, development, and performance analysis of a material elevation
system based on the principle of a rotating helical screw within a cylindrical casing. Known as a screw conveyor, this system
is widely utilized for the efficient transportation of bulk materials across industries such as agriculture, food processing,
construction, and waste management. The primary aim of this research is to design a reliable, cost-effective, and energy-
efficient system suitable for various industrial applications. The study delves into the mechanical principles governing the
system, key design considerations, material selection, fabrication techniques, and performance testing under diverse
conditions. A detailed literature review explores the evolution of screw conveyors and highlights the gap this research aims
to bridge. The research also includes theoretical modeling, CAD simulations, and prototype development. Results indicate
that the proposed system is highly efficient, with minimal spillage and low power consumption, making it an ideal solution
for modern material handling challenges.
Keywords :
Helical Screw, Material Elevation System, Cad Simulation.
This paper presents the comprehensive design, development, and performance analysis of a material elevation
system based on the principle of a rotating helical screw within a cylindrical casing. Known as a screw conveyor, this system
is widely utilized for the efficient transportation of bulk materials across industries such as agriculture, food processing,
construction, and waste management. The primary aim of this research is to design a reliable, cost-effective, and energy-
efficient system suitable for various industrial applications. The study delves into the mechanical principles governing the
system, key design considerations, material selection, fabrication techniques, and performance testing under diverse
conditions. A detailed literature review explores the evolution of screw conveyors and highlights the gap this research aims
to bridge. The research also includes theoretical modeling, CAD simulations, and prototype development. Results indicate
that the proposed system is highly efficient, with minimal spillage and low power consumption, making it an ideal solution
for modern material handling challenges.
Keywords :
Helical Screw, Material Elevation System, Cad Simulation.
