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Course description: AEC Daily: Introduction to High-Density Parking Systems
As urban areas become denser, land values increase, and the demand for space becomes more challenging, developers are seeking alternative, innovative approaches to parking cars that allow a project to proceed while meeting all parking and sustainability requirements. Automated parking systems, parking lifts, and multilevel car stackers provide multiple benefits for developments, car parking operations, and vehicle storage facilities. High-density parking systems can help to maximize ROI with a reduced parking footprint and better building flow; reduce construction costs and operational overheads; and improve safety, security, and sustainability. This course explains the types of high-density parking systems, their sustainable advantages, and design considerations.
Discuss the negative environmental and human health impacts of traditional parking lots and garages on land use, air and water quality, and safety.
Recall the key aspects of a high-density parking system that reduce air pollution, increase user safety, reduce electrical energy use, and limit land use.
Explain the differences between mechanical, semiautomated, and fully automated high-density parking systems and compare their functions and sustainable impacts.
Discuss the many design considerations for a safe and efficient high-density parking system, including traffic studies, dwell time, fire protection and safety codes, and structural, mechanical, and electrical design requirements.