To overcome several critical drawbacks for applying the conventional green roof in Taiwan, this research group had developed DIY green roof (DGR) modules. Although the DGRs have various module, environmental quality, and living quality benefits, there exist limitations for growing some plants and for establishing low maintenance green roofs. This study was thus initiated to develop an assemblable large pot to resolve these shortcomings. Stress simulation and applicability analyses are essential for designing the DGR pots. Therefore, the simulation tool provided by Solidworks was used to implement the stress simulation and applicability analyses. Appropriate procedures for installing, using, and assembling the kits for building DGRs were also explored. Several materials, including water uptake strip, protective layer, and bottom fabric, are required and their functional requirements are quite different. This study thus designed appreciate experiments to assess the applicabilities of different materials for satisfying desired functional requirements. Appropriate operation procedures for using the materials were also investigated. Finally, according to the results from aforementioned analyses, suitable combinations of the kits and materials, including their usage and operation procedures, were evaluated and compared, and the best combination for each DGR pot was determined. The kits were printed by 3D printers and tested before they are produced. This study has successfully developed an assemblable pot that allows various plants to grow and is easy to assemble. According to the results obtained from the water uptake capillarity, water permeability, water spreading and root resistance experiments, designed in this study, appropriate nonwoven fabrics were chosen to serve as water uptake strip, bottom fabric and protective layer for the DGR pots. The maximum stress value, as estimated by the Solidworks Simulation, for the previous and assemblable pots are 1.668e+006 N/m2 and 7.568e+006 N/m2, respectively. They are all less than the yield stress of 32e+006 N/m2 for Polypropylene (PP), the material to be used for producing the pots, and will not cause the pots to permanently deform. Appropriate usage and operation procedures for the previous, wooden and assemblable pots were also explored, including the procedures for placing water uptake strip, bottom fabric and protective layer. The usages of the DIY kits should have been significantly improved. The developed assemblable pot is expected to extend the applicability of DIY kits for various demands and purposes. Key words: green roof; DIY; recycled PET bottle; assemblable pot; stress analysis; sustainable environmental systems analysis.