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This project involves the complete 3D design and layout development of an industrial process skid system, integrating storage, pumping, and piping networks into a compact and efficient structure. The system is centered around a vertical storage tank, supported by a network of process pipelines, valves, and fittings designed for controlled fluid handling. Multiple pump units are strategically positioned to ensure smooth transfer, circulation, and pressure management of the fluid across the system. A dedicated platform structure with access stairs and safety railings is incorporated for operational accessibility, maintenance, and monitoring of equipment such as pumps, valves, and instrumentation. The design ensures proper ergonomics, safety clearance, and maintenance space. The piping layout has been carefully engineered with: Accurate routing for minimal pressure drop Proper placement of elbows, reducers, and valves Organized color-coded lines for easy identification of different services Structural supports for stability and vibration control Additionally, the skid includes: Auxiliary vessels and filtration units Motor-driven pump assemblies mounted on base frames Structural framework for pipe support and equipment mounting This 3D model enables: Accurate material take-offs (MTO) Clash detection and design validation Fabrication-ready detailing Efficient project planning and execution Overall, the project reflects a fully integrated mechanical design approach, focusing on performance, safety, and real-world industrial applicability.