Choose materials and coatings that maintain strength and toughness under cyclic loading and in the local environment. Hot-dip galvanizing, stainless steel fasteners, epoxy primers and polyurethane topcoats extend life in coastal or corrosive sites. This research explores the integration of photovoltaic systems in super high-rise buildings to enhance their earthquake resilience. By analyzing the structural performance of buildings equipped with these sustainable energy systems under seismic loads, the study aims to identify potential benefits. The global expansion of photovoltaic systems has encountered significant challenges in seismically active regions, where conventional mounting and structural designs often prove inadequate against ground motion forces. Earthquakes pose unique threats to solar installations through horizontal and. (1) The entire support and hanger system should meet the requirements of impact load resistance and fire resistance rating, ensuring safety in the event of a fire under special loads, and ensuring a certain fire resistance rating (not less than 180 minutes) in the event of a fire. (2) The C-shaped. As solar photovoltaic technology has matured over the past two decades, installations have increasingly been deployed in areas with varying degrees of seismic risk, from moderate earthquake zones to highly active fault systems. Reinforcement strategies must address overturning, uplift, lateral drift, dynamic amplification and equipment.