In Burkina Faso, insecurity has led to massive displacement of rural populations towards the country’s major cities. Humanitarian organizations have worked hard to provide internally displaced people with humanitarian shelters that meet international standards. Despite these enormous efforts, the phenomenon has given rise to a crying need for housing and the proliferation of makeshift emergency shelters, which are confined and precarious, becoming almost like greenhouses in hot weather, as they induce thermal discomfort and overheating. The aim of the study is to propose a prototype for an alternative Sahelian-type emergency shelter that is comfortable, semi-durable, and removable. The aim is to assess the performance and hygrothermal comfort of a standard humanitarian tent made of plastic sheeting (the most widely used in the country) and to compare it with a bioclimatic emergency shelter prototype using local biosourced materials. The study used a dual experimental and numerical approach to measure and simulate the temperature, relative humidity, and hydrothermal comfort of the two shelters. The results showed that the prototype emergency shelter made from local biosourced materials offers better hygrothermal comfort than the humanitarian tent made from plastic sheeting and is more durable and removable. Indeed, in hot weather, it can dampen the thermal wave by an average of 7?C, induce a thermal phase shift of around 5 hours, and reduce the discomfort rate by 61% compared with the humanitarian tent. Local materials can, therefore, play a strategic role in the construction of emergency shelters in times of crisis or disaster.
References
[1]
Ullal, A., Aguacil, S., Vannucci, R., Yang, S., Goyette Pernot, J., Licina, D., et al. (2022) Comparing Thermal Performance of Standard Humanitarian Tents. EnergyandBuildings, 264, Article 112035. https://doi.org/10.1016/j.enbuild.2022.112035
[2]
The UN Refugee Agency (2024) Global Trends Forced Displacement in 2023. https://www.unhcr.org/global-trends-report-2023
[3]
CONASUR Permanent Secretariat (2023) Registration of Internally Displaced Persons of Burkina Faso. National Council for Emergency Relief and Rehabilitation (CONASUR), Ouagadougou, Burkina Faso.
[4]
OCHA (2024) Status Report. OCHA, Evaluation Report. https://reliefweb.int/report/burkina-faso/burkina-faso-rapport-de-situation-28-avr-2023
Plastics Europe (2014) Chapter 1: Plastics to the Rescue of the Homeless. The Plastics and Innovation Magazine, (PlasticsleMag), Billet de blog.
[7]
Ouédraogo, O., Compaoré, A., Namoano, D., Igo, S.W. and Dissa, A.O. (2023) Development and Characterization of Thermal Insulation Panels Based on Rice Husks and Kapok Fibers Stabilized with Plaster. International Journal of Engineering, Science and Mathematics, 12, 19‑27.
[8]
Compaore, A., Sawadogo, G.L., Ouedraogo, D. and Ouedraogo, O. (2022) Thermal Study and Formulation of Briquettes Based on Kapok-Later Wool for the Insulation of Local Ovens Suitable for Grilling Meat. International Journal of Current Research, 14, 22133‑22137. https://doi.org/10.24941/ijcr.43864.08.2022
[9]
Saunders, G. and Bauer, R. (2007) Guide to the Characteristics of Plastic Tarpaulin and its Use for Humanitarian Relief. International Federation of Red Cross and Red Crescent Societies and Oxfam International, Technical Report. http://www.plastic-sheeting.org/ref/Plastic-Sheeting-French-Complete-A4-090114.pdf
[10]
Gutierrez, E.S., Degla, B. and Touaro, Z. (2022) Burkina Faso Detailed Shelter Response Sheet: Local Constructive Crops for Sustainable and Resilient Habitats. CRAterre.
Xu, L., Zhang, W., Wang, W., Gao, B. and Chen, M. (2020) Impact of Different Improvement Measures on the Thermal Performance of Ultra-Thin Envelopes. Energy, 203, Article 117802. https://doi.org/10.1016/j.energy.2020.117802
[13]
Ortega, P., Lucas, F. and Hopuare, M. (2016) Final Report of the COBIOPOL Programme. UPF/MOM/ADEME/PAYS/CCISM, Evaluation Report. https://www.ccism.pf/sites/default/files/docs/rapport_final_cobiopol-022016-ccism.pdf
[14]
Déoux, S. (2019) Thermal Comfort Study in Schools. EnviroBAT-Réunion, Littoral de l’île de la Réunion, Evaluation Report. https://cdn.s-pass.org/SPASSDATA/attachments/2019_12/16/5f7f4c60322f0-d77710.pdf
[15]
OMBREE (2023) Guide to the Evaluation of Thermal Comfort in Humid Tropical Environments. COCO Project, OMBREE, Evaluation Report.
[16]
Joffroy, T., Misse, A., Celaire, R. and Rakotomalala, L. (2017) Bioclimatic Architecture and Energy Efficiency of Buildings in Senegal. CRAterre. https://hal.archives-ouvertes.fr/hal-02025559
[17]
Jarno, B. and TONO Conseils (2015) Study on Nubian Vault Technology as a Construction Model. TONO Conseils, Dakar, Senegal, Evaluation Report. https://www.lavoutenubienne.org/IMG/pdf/afd_guide-ecoconstruction_en_web_pap-3.pdf
[18]
Compaoré, A. (2018) Study of the Thermal Performance of a Typical Habitat in Burkina Faso. Application: Contribution to the Implementation of Thermal Regulation. Doctoral Thesis, Joseph Ki-Zerbo University.
[19]
Peuportier, B. (2016) Energetics of Buildings and Thermal Simulation, Eyrolles Editions. Groupe Eyrolles.
[20]
Mora, L. (2003) Prediction of the Thermo-Aeraulic Performance of Buildings by Association of Models of Different Levels of Finesse within an Object-Oriented Environment. University of La Rochelle.
[21]
Raji, S. (2006) Hygro-Thermal Characterization, by a Multi-Scale Approach, of Solid Wood Constructions with a View to Energy Improvement and Environmental Enhancement. PhD Thesis, University of Bordeaux.
[22]
Cherier, M.K., Benouaz, T., Bekkouche, S.M.A. and Hamdani, M. (2018) Some Solar Passive Concepts in Habitat through Natural Ventilation Case Study: Dry Climate in Algeria Ghardaia. CaseStudiesinThermalEngineering, 12, 1-7. https://doi.org/10.1016/j.csite.2018.02.002
[23]
De Dear, R.J. and Brager, G.S. (2002) Thermal Comfort in Naturally Ventilated Buildings: Revisions to ASHRAE Standard 55. Energy and Buildings, 34, 549-561.
[24]
Filmm Syndicat National (2022) RE 2020, Summer Comfort, filmm Syndicat National, Technical Report.
[25]
Adams, M. (1964) Transmission de la chaleur. Dunod.
