Analysis and Design of an Industrial Tower

Steel Transmission Towers are often used to transmit power from one location to another using electrical conductors. Transmission line towers elevate heavy electrical transmission conductors to a safe height above the ground. Furthermore, all towers must withstand various natural disasters such as wind, earthquakes, and so on. Because towers must support the weight of above lines, they must be strong. As a result, the design engineer has a lot of responsibility, as he or she must develop not only an economical, but also a safe and trustworthy design that can withstand various loads, including its own. The voltage, circuit count, and kind of transmission line tower are used to classify them. The most common configurations used are rectangular and square. The most prevalent type of broad-based tower is the square type. Different sorts of towers are introduced in this. Transmission towers are often built of steel or galvanized steel. Lattice structures are commonly utilized and have a sleek body made up of polygonal tubular sections with tubular cross arm management for fastening the tension or suspension clamp. The geometric parameters of transmission line tower configuration include the tower's height, base width, top-hamper width, length, and depth of the cross arm. The leg and bracing elements are the main components of the lattice tower. They transport the tower's vertical and shear stresses to its foundation. Secondary or redundant bracing members are utilized to offer intermediate support to primary members in order to reduce unbraced length and boost load carrying capability. Rectangular and square configurations are the most common. The most frequent are square-shaped broad-based towers. STAAD PRO V8i was used to construct and analyze a standard steel latticed skyscraper of height 19 meters. On post-processing mode after load analysis The bending moment and shear forces findings were obtained, examined, and updated to meet the requirements.