Abstrakt: |
Car parks are essential for every new development, but they often result in inefficient use of space. To save space, basement car parks are adopted. However, their capacity is limited by the building footprint and immovable vertical structural elements. Current research on basement car parks mainly focuses on ventilation under extreme situations such as fires. The impact of specific design factors unique to basement car parks on capacity has not been fully studied yet. Therefore, this paper investigates the impact of basement car park design factors on capacity by studying three design aspects: parking aisle network, building footprint, and column positions. A parking lot placement algorithm is proposed to help model and automate the car park design process. Parking lots are optimized using a genetic algorithm (GA). A series of impact analyses have been conducted for three selected design factors. Four design principles from prior research were used to analyze and compare the impact of design factors on parking lots. It was found that the proposed design optimization method can automate basement car park design and facilitate the impact analysis of design factors. Based on the impact analysis, the increase in parking lots for each layout is not strictly positively correlated with the perimeter of the parking aisle. The long rectangle building footprint can have a larger capacity compared with other shapes. Adjusting column positions can provide more space for parking lots and further optimize car park capacity. This research has practical implications for the field of architectural engineering, benefiting architects, engineers, and designers. Architects and designers working on basement car park projects can utilize the research findings to optimize the layout of parking spaces. By considering nonadjustable column positions and vertical obstructions, they can make more efficient use of available space, thereby increasing car park capacity. The systematic analysis of design factors, including parking aisle networks, building footprints, and column positions, empowers professionals to make informed decisions during the design phase. They can tailor car park designs to meet specific needs, while adhering to structural constraints. The introduction of a novel parking lot placement algorithm with optimization capabilities offers a practical tool for architects and designers. It streamlines the process of positioning parking lots to maximize capacity, particularly in basement car parks with fixed columns and obstacles. The research provides valuable guidance for basement car park design, enabling architects to apply design principles derived from surface and single-use multistory car park design to basement configurations. In practice, these applications result in more efficient and flexible car park designs, addressing the unique challenges of basement car parks, while optimizing their capacity and functionality. [ABSTRACT FROM AUTHOR] |