Design of Foldable Shelter for Post-Disaster Response

Danielyn F. Plazos; Allan Brian I. Cabisay; Rommel C. Ongcay; Rydell Reade A. Peramide

doi:10.4028/p-68d3t1

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HomeConstruction Technologies and ArchitectureConstruction Technologies and Architecture Vol. 5Design of Foldable Shelter for Post-Disaster...

Design of Foldable Shelter for Post-Disaster Response

Abstract:

The Philippines is hit by different calamities and is considered one of the world's most disaster-prone countries, regularly ranking in the top three countries hit most by natural catastrophes. Foldable shelters provide private and secure living spaces for persons forced to leave or lose their usual housing due to a calamity. This study aimed to design a lightweight steel-framed temporary shelter that can withstand typhoon calamities and follows the design requirements mandated by the National Building Code and National Structural Code of the Philippines. The shelter's design concept emphasized its expandability, allowing it to accommodate one family of 4-5 persons. It also is designed to be deploy easily, safe, and efficient in post-disaster settings. The major factors considered when developing the shelter are the ease of assembly process, a compact and flexible structure, and adaptability to rapidly changing conditions. The structural analysis indicates that it can withstand a typhoon with an average wind speed of 220 kph but will fail in a super typhoon like Haiyan, with an average wind speed of 250 kph. Since this shelter is designed for temporary uses, the maximum wind capacity of 220 kph is acceptable and can be a reasonable basis for using these to replace other shelters.

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Periodical:

Construction Technologies and Architecture (Volume 5)

Pages:

47-52

DOI:

https://doi.org/10.4028/p-68d3t1

Citation:

Cite this paper

Online since:

April 2023

Authors:

Danielyn F. Plazos*, Allan Brian I. Cabisay, Rommel C. Ongcay, Rydell Reade A. Peramide

Keywords:

Foldable, Mobile, Post-Disaster, Shelter, Transportable

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* - Corresponding Author

References

[1] H. Flores, "Philstar GLOBAL," The Philippine Star, 21 March 2018. [Online]. Available: https: //www.philstar.com/headlines/2018/03/21/1798866/climate-change-vulnerability- philippinesranks-3rd.

Google Scholar

[2] V. Bollettino, T. Alcanya-Stevens, M. Sharma, P. Dy, P. Pham, P. Vinck, "Public perception of climate change and disaster preparedness: Evidence from the Philippines," Climate Risk Management, vol. 30, 2020.

DOI: 10.1016/j.crm.2020.100250

Google Scholar

[3] A. Bashawri, S. Garrity, K. Moodley, "AN OVERVIEW OF THE DESIGN OF DISASTER RELIEF SHELTERS," ScienceDirect, vol. 18, pp.924-931, 2014.

DOI: 10.1016/s2212-5671(14)01019-3

Google Scholar

[4] S. Carrasco, C. Ochiai, K. Okazak, "Residential satisfaction and housing modifications. A study in disaster-induced resettlement sites in," International Journal of Disaster Resilience in the Built Environment, vol. 8, 2017.

DOI: 10.1108/ijdrbe-09-2015-0043

Google Scholar

[5] M. C. Enriquez, "LIFESTYLE.INQ," Philippine Daily Inquirer, 5 March 2014. [Online]. Available: https://lifestyle.inquirer.net/153175/foldable-butterfly-house-to-shelter-the-yolandahomeless/#ixzz7678wANBW.

Google Scholar

[6] Monica Norman, Kaveh Arjomandi, "Origami Applications in Structural Engineering: A Look at Temporary Shelters," no. 2371-5294, 2017.

DOI: 10.11159/icsenm17.130

Google Scholar

[7] W. Asfaw, D. Headley, N. Liza, D. Nederhoed, "DISASTER RELIEF SHELTER," Calvin College Engineering Department, 2013.

Google Scholar

[8] J. M. A. Muiris C. Moynihan, "Utilization of structural steel in buildings," The Royal Society, 2014.

Google Scholar