Impact of Height and Volume on the Seismic Reduction Coefficient for Elevated Tanks in Loreto: A Proposal for the Peruvian Standard E.030

Mirella Alexandra Camarena Verastegui; Gustavo Quispe Paitan; Percy Julio Quispe Paitan; Manuel Ismael Laurencio Luna

doi:10.13189/cea.2025.130314

Impact of Height and Volume on the Seismic Reduction Coefficient for Elevated Tanks in Loreto: A Proposal for the Peruvian Standard E.030

Título traducido de la contribución: Impacto de la Altura y el Volumen en el Coeficiente de Reducción Sísmica para tanques elevados en Loreto:Una propuesta para la Norma Peruana E.030

Mirella Alexandra Camarena Verastegui, Gustavo Quispe Paitan, Percy Julio Quispe Paitan, Manuel Ismael Laurencio Luna

Universidad Continental

Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

Resumen

La región peruana de Loreto se enfrenta a una grave crisis de acceso a agua potable, ya que gran parte de la población carece de suministro adecuado. Los tanques elevados son una solución habitual, pero presentan importantes retos estructurales en una zona sismicamente activa. La norma peruana E.030 no especifica un coeficiente de reducción sísmica (R) para estos tanques, lo que lleva a utilizar normas extranjeras que no se ajustan a las condiciones locales. Esto aumenta el riesgo de fallo estructural, especialmente en tanques con geometría de péndulo invertido, lo que pone en peligro la funcionalidad del suministro de agua

Título traducido de la contribución	Impacto de la Altura y el Volumen en el Coeficiente de Reducción Sísmica para tanques elevados en Loreto:Una propuesta para la Norma Peruana E.030
Idioma original	Inglés estadounidense
-	1646
Páginas (desde-hasta)	23
-	1624
Publicación	Civil Engineering and Architecture
Volumen	13
N.º	3
DOI	https://doi.org/10.13189/cea.2025.130314
Estado	Indizado - 12 may. 2025

Nota bibliográfica

Publisher Copyright:
© 2025 by authors, all rights reserved.

Palabras clave

Tanques elevados
Reducción Sísmica
Pushover
Fluencia
Colapso
Ductilidad
Sobre Resistencia

Acceder al documento

10.13189/cea.2025.130314

Citar esto

@article{d5fd3f98741c4953b7dcf4e0fbddde63,

title = "Impact of Height and Volume on the Seismic Reduction Coefficient for Elevated Tanks in Loreto: A Proposal for the Peruvian Standard E.030",

abstract = "The Loreto region of Peru faces a severe crisis in access to drinking water, with a large part of the population without adequate supply. Elevated tanks are a common solution, but present significant structural challenges in a seismically active area. The Peruvian standard E.030 does not specify a seismic reduction coefficient (R) for these tanks, leading to the use of foreign standards that do not fit local conditions. This increases the risk of structural failure, especially in inverted pendulum type geometry tanks, which endangers the safety and functionality of the water supply. This study proposes a new equation to estimate the most appropriate seismic reduction coefficient according to the height of the tank, taking into account the seismic conditions in Loreto. Simulations of seismic loads were carried out using the pushover method, evaluating the structural behaviour of 63 elevated tank models. The results show that as the tank height increases, the seismic reduction factor decreases, indicating a lower capacity of the structure to dissipate seismic loads. Models with larger volumes and heights exhibit more plastic behaviour, while smaller and stiffer tanks have lower ductility and reduction factor. The proposed equation, with a linear regression of the form y =-0.064X + 9.598, provides an accurate tool to adjust the seismic reduction coefficient as a function of tank height. This proposal can be incorporated into the E.030 standard, improving the seismic design of elevated tanks in Loreto and other seismically active regions, and reducing the risk of structural failure during seismic events, ensuring a safer and more sustainable water supply.",

keywords = "Collapse, Creep, Ductility, Elevated Tanks, Over Strength, Pushover, Seismic Reduction, Tanques elevados, Reducci{\'o}n S{\'i}smica, Pushover, Fluencia, Colapso, Ductilidad, Sobre Resistencia",

author = "Verastegui, \{Mirella Alexandra Camarena\} and Paitan, \{Gustavo Quispe\} and Paitan, \{Percy Julio Quispe\} and Luna, \{Manuel Ismael Laurencio\}",

year = "2025",

month = may,

day = "12",

doi = "10.13189/cea.2025.130314",

language = "American English",

volume = "13",

pages = "23",

journal = "Civil Engineering and Architecture",

issn = "2332-1091",

publisher = "Horizon Research Publishing",

number = "3",

}

Impact of Height and Volume on the Seismic Reduction Coefficient for Elevated Tanks in Loreto: A Proposal for the Peruvian Standard E.030. / Verastegui, Mirella Alexandra Camarena; Paitan, Gustavo Quispe; Paitan, Percy Julio Quispe et al.
En: Civil Engineering and Architecture, Vol. 13, N.º 3, 1646, 12.05.2025, p. 23.

Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

TY - JOUR

T1 - Impact of Height and Volume on the Seismic Reduction Coefficient for Elevated Tanks in Loreto

T2 - A Proposal for the Peruvian Standard E.030

AU - Verastegui, Mirella Alexandra Camarena

AU - Paitan, Gustavo Quispe

AU - Paitan, Percy Julio Quispe

AU - Luna, Manuel Ismael Laurencio

PY - 2025/5/12

Y1 - 2025/5/12

N2 - The Loreto region of Peru faces a severe crisis in access to drinking water, with a large part of the population without adequate supply. Elevated tanks are a common solution, but present significant structural challenges in a seismically active area. The Peruvian standard E.030 does not specify a seismic reduction coefficient (R) for these tanks, leading to the use of foreign standards that do not fit local conditions. This increases the risk of structural failure, especially in inverted pendulum type geometry tanks, which endangers the safety and functionality of the water supply. This study proposes a new equation to estimate the most appropriate seismic reduction coefficient according to the height of the tank, taking into account the seismic conditions in Loreto. Simulations of seismic loads were carried out using the pushover method, evaluating the structural behaviour of 63 elevated tank models. The results show that as the tank height increases, the seismic reduction factor decreases, indicating a lower capacity of the structure to dissipate seismic loads. Models with larger volumes and heights exhibit more plastic behaviour, while smaller and stiffer tanks have lower ductility and reduction factor. The proposed equation, with a linear regression of the form y =-0.064X + 9.598, provides an accurate tool to adjust the seismic reduction coefficient as a function of tank height. This proposal can be incorporated into the E.030 standard, improving the seismic design of elevated tanks in Loreto and other seismically active regions, and reducing the risk of structural failure during seismic events, ensuring a safer and more sustainable water supply.

AB - The Loreto region of Peru faces a severe crisis in access to drinking water, with a large part of the population without adequate supply. Elevated tanks are a common solution, but present significant structural challenges in a seismically active area. The Peruvian standard E.030 does not specify a seismic reduction coefficient (R) for these tanks, leading to the use of foreign standards that do not fit local conditions. This increases the risk of structural failure, especially in inverted pendulum type geometry tanks, which endangers the safety and functionality of the water supply. This study proposes a new equation to estimate the most appropriate seismic reduction coefficient according to the height of the tank, taking into account the seismic conditions in Loreto. Simulations of seismic loads were carried out using the pushover method, evaluating the structural behaviour of 63 elevated tank models. The results show that as the tank height increases, the seismic reduction factor decreases, indicating a lower capacity of the structure to dissipate seismic loads. Models with larger volumes and heights exhibit more plastic behaviour, while smaller and stiffer tanks have lower ductility and reduction factor. The proposed equation, with a linear regression of the form y =-0.064X + 9.598, provides an accurate tool to adjust the seismic reduction coefficient as a function of tank height. This proposal can be incorporated into the E.030 standard, improving the seismic design of elevated tanks in Loreto and other seismically active regions, and reducing the risk of structural failure during seismic events, ensuring a safer and more sustainable water supply.

KW - Collapse

KW - Creep

KW - Ductility

KW - Elevated Tanks

KW - Over Strength

KW - Pushover

KW - Seismic Reduction

KW - Tanques elevados

KW - Reducción Sísmica

KW - Pushover

KW - Fluencia

KW - Colapso

KW - Ductilidad

KW - Sobre Resistencia

UR - https://www.scopus.com/pages/publications/105002466580

U2 - 10.13189/cea.2025.130314

DO - 10.13189/cea.2025.130314

M3 - Original Article

AN - SCOPUS:105002466580

SN - 2332-1091

VL - 13

SP - 23

JO - Civil Engineering and Architecture

JF - Civil Engineering and Architecture

IS - 3

M1 - 1646

ER -

Impact of Height and Volume on the Seismic Reduction Coefficient for Elevated Tanks in Loreto: A Proposal for the Peruvian Standard E.030

Resumen

Nota bibliográfica

Palabras clave

Acceder al documento

Huella

Citar esto