Pari Cusi, Herson Duberly

Preferred name
Pari Cusi, Herson Duberly
Main Affiliation
Email
hparic@upeu.edu.pe
ORCID
Scopus Author ID

Filtros

2016 - 201912020 - 20232

Ajustes

Mostrando 1 - 3 de 3
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    HIV & Hepatitis in the Americas 28–30 April 2016, Mexico City, Mexico
    (2016-04-28)
    ;
    Kenneth Mayer
    ;
    Omar Sued
    ;
    Néstor Sosa
    ;
    Ricardo Sobhie Diaz
    and creative negotiations. Eradication is possible. It is up to us to make it so.
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    Simulation and Analysis of Thermal Insulators Applied to Post-Disaster Temporary Shelters in Tropical Countries
    (2023-05-09)
    ;
    Caio F. P. Silva
    ;
    Ana Carolina Fernandes Maciel
    ;
    Herson D. P. Cusi
    ;
    Containers are fundamental elements for the development of international trade; however, it is estimated that there are more than 17 million retired containers stacked in ports around the world. Considering the high costs involved in the process of storing, transporting, or destroying these materials, in addition to their non-degradable nature, it is urgent to develop strategies for the sustainable use of these decommissioned containers. In this context, repurposing these containers into permanent structures is becoming a predominant trend. One solution is converting steel shipping structures into habitable spaces. However, due to the urgency with which Container Houses (CHs) are demanded in case of disasters, they are usually planned to be built as quickly as possible, serving as many people as possible, and do not consider the basic principles of energy efficiency. The performance of the CHs is, then, impaired, including risks of overheating, corrosion, and rust, among others, during service, making them an even more stressful experience for their users who are already in a vulnerable situation. Therefore, the objective of this study is to compare the performance of two thermal insulators applied to a temporary shelter container designed to promptly serve vulnerable populations. The model was developed in Building Information Modeling (BIM) software and simulated in Building Energy Simulation (BES) software, aiming to obtain subsidies for its technical and economic viability analysis. The results indicated that thermal insulators are able to generate significant savings in energy consumption, with mineral wool presenting better long-term performance.
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    Evaluation of wind pressure in low-rise buildings with full-scale metal roofs in Juliaca city
    (2023-01-01)
    ;
    Dianet Roxana Itusaca Maldonado
    ;
    Eli Rony Choquehuanca Yapura
    ;
    Rody Smith Montesinos Tamara
    The study of the loads resulting from the action of the wind in buildings is one of the relevant aspects of structural design, for which its correct consideration in the design, as well as the study of real cases, adds great value to the field of engineering. Civil construction. In this sense, the present work was developed in order to evaluate wind pressure in low-rise buildings with full-scale metal roofs in the city of Juliaca. It was quantitative and experimental, where, as the object of study, they took 3 structures, which were evaluated from the natural ground level to the top of the coverage; being the following: Coliseum of the University Peruana Unión [UPeU], 13.13 meters high with parabolic coverage; Los Uros dining room of the University Peruana Unión, 4.75 meters high with one water roof and; Grass field of the University Peruana Union of 7.30 meters high with gabled coverage. Data collection and recording was performed at intervals of 30 minutes, for a period of 12 hours, in an arrangement of 7 rows by 6 columns, for each coverage, where 840 reading data were the speed of wind obtained from the anemometers digital installed in the coverages. As a result of the statistical analysis through the application of the Correlation and linear regression method, it was obtained that the 3 evaluated structures comply with the parameters established in the Peruvian Technical Standard E-020 of the National Building Regulations for the design of wind loads.