Abstracts – Browse Results

Search or browse again.

Click on the titles below to expand the information about each abstract.
Viewing 6 results ...

Catalano, G, Baratta, A F L, Calcagnini, L, Finucci, F, Magarò, A, Mariani, M and Trulli, L (2023) Procedures and standards for the sizing of university buildings. Architectural Engineering and Design Management, 19(03), 233–49.

Haggag, A G, Zaki, S H and Selim, A M (2023) Emergency camps design using analytical hierarchy process to promote the response plan for the natural disasters. Architectural Engineering and Design Management, 19(03), 305–22.

Lu, H and Juan, Y (2023) Applying The DQI-based Kano model and QFD to develop design strategies for visitor centers in national parks. Architectural Engineering and Design Management, 19(03), 215–32.

Ramzanpour, M, Sharghi, A, Nourtaghani, A and Saleh Sedghpour, B (2023) The reduction of low-income housing stigma with facade features; low- and medium-sized cities. Architectural Engineering and Design Management, 19(03), 250–66.

Shahda, M M and Megahed, N A (2023) Post-pandemic architecture: a critical review of the expected feasibility of skyscraper-integrated vertical farming (SIVF). Architectural Engineering and Design Management, 19(03), 283–304.

  • Type: Journal Article
  • Keywords: COVID-19; skyscrapers; vertical architecture; vertical farming; food security; skyscraper-integrated vertical farming;
  • ISBN/ISSN: 1745-2007
  • URL: https://doi.org/10.1080/17452007.2022.2109123
  • Abstract:
    Can skyscrapers survive after COVID-19? Can the idea of integrating vertical farming (VF) into vertical architecture support the environmental, economic, and social issues in the post-pandemic era? Answering these questions is the main objective of this study. Therefore, it explores a) the impact of the pandemic on the built environment, especially skyscrapers; b) the challenges facing the survival of skyscrapers; c) the design parameters and main components of VF; and d) the expected feasibility of integrating VF into vertical architecture to reduce the effects of the pandemic. The research concludes that the skyscraper-integrated vertical farming (SIVF) paradigm can create a closed ecosystem that preserves the environment by a) supporting food security, b) improving indoor environmental quality, c) enhancing psychological and physical health, d) saving energy, e) reducing greenhouse gas emissions and releasing oxygen, and f) supporting the local economy. Consequently, the SIVF paradigm can inaugurate an innovative approach that provides insights into new research trends and discoveries. However, further constraints in the adoption of SIVF should be addressed, and collaborations between researchers and multidisciplinary experts must be created to achieve suitable solutions.

Tan, T, Mills, G, Papadonikolaki, E, Li, B and Huang, J (2023) Digital-enabled Design for Manufacture and Assembly (DfMA) in offsite construction: A modularity perspective for the product and process integration. Architectural Engineering and Design Management, 19(03), 267–82.