Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers

Abstract The purpose of this study is to analyze the RRF antenna tower under wind load action, the wind load is viewed from an angle of 0( to the towing cable to the largest angle on the two types of antenna towers, triangle and Square. Both types will produce different wind loads so that we can fin...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Cim,Sunaryo, Magribi,La OdeMuh., Putra,Adris A., Simatupang,Minson, Thahir Azikin,Muh.
Lenguaje:English
Publicado: Escuela de Construcción Civil, Pontificia Universidad Católica de Chile 2020
Materias:
Acceso en línea:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-915X2020000300381
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:scielo:S0718-915X2020000300381
record_format dspace
spelling oai:scielo:S0718-915X20200003003812021-02-16Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towersCim,SunaryoMagribi,La OdeMuh.Putra,Adris A.Simatupang,MinsonThahir Azikin,Muh. Guyed tension wind loads antenna towers triangle type Square type Abstract The purpose of this study is to analyze the RRF antenna tower under wind load action, the wind load is viewed from an angle of 0( to the towing cable to the largest angle on the two types of antenna towers, triangle and Square. Both types will produce different wind loads so that we can find out which load is the biggest from a combination of wind directions. The research method is by empirical analysis, calculating the wind load alone while other loads are not counted. As a result of wind loads, the tension cable and load direction correspond to each section and then the resultant values ​​of force and direction will arise. And finally, the force is changed to lift and the anchor will hold the force. The results use of triangle antenna towers is more beneficial, because the wind load that occurs is smaller, thus the construction costs are also smaller. Due to the wind load that works horizontally and will be provided by the tower that stands vertically, the tower requires several retaining cables in a diagonal position, the force that propagates on the diagonal cable will cause a force in the vertical direction or lift, so the lift must be placed using anchors that are embedded in the soil, the large load from the soil that will hold the anchor is determined based on the value of the analysis, the criteria are too light so the anchor will be lifted and friendly, it will cause waste.info:eu-repo/semantics/openAccessEscuela de Construcción Civil, Pontificia Universidad Católica de ChileRevista de la construcción v.19 n.3 20202020-12-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-915X2020000300381en10.7764/rdlc.19.3.381
institution Scielo Chile
collection Scielo Chile
language English
topic Guyed tension
wind loads
antenna towers
triangle type
Square type
spellingShingle Guyed tension
wind loads
antenna towers
triangle type
Square type
Cim,Sunaryo
Magribi,La OdeMuh.
Putra,Adris A.
Simatupang,Minson
Thahir Azikin,Muh.
Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers
description Abstract The purpose of this study is to analyze the RRF antenna tower under wind load action, the wind load is viewed from an angle of 0( to the towing cable to the largest angle on the two types of antenna towers, triangle and Square. Both types will produce different wind loads so that we can find out which load is the biggest from a combination of wind directions. The research method is by empirical analysis, calculating the wind load alone while other loads are not counted. As a result of wind loads, the tension cable and load direction correspond to each section and then the resultant values ​​of force and direction will arise. And finally, the force is changed to lift and the anchor will hold the force. The results use of triangle antenna towers is more beneficial, because the wind load that occurs is smaller, thus the construction costs are also smaller. Due to the wind load that works horizontally and will be provided by the tower that stands vertically, the tower requires several retaining cables in a diagonal position, the force that propagates on the diagonal cable will cause a force in the vertical direction or lift, so the lift must be placed using anchors that are embedded in the soil, the large load from the soil that will hold the anchor is determined based on the value of the analysis, the criteria are too light so the anchor will be lifted and friendly, it will cause waste.
author Cim,Sunaryo
Magribi,La OdeMuh.
Putra,Adris A.
Simatupang,Minson
Thahir Azikin,Muh.
author_facet Cim,Sunaryo
Magribi,La OdeMuh.
Putra,Adris A.
Simatupang,Minson
Thahir Azikin,Muh.
author_sort Cim,Sunaryo
title Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers
title_short Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers
title_full Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers
title_fullStr Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers
title_full_unstemmed Review design of wind load analysis structures guyed tension in the Bogor repeater radio frequency antenna towers
title_sort review design of wind load analysis structures guyed tension in the bogor repeater radio frequency antenna towers
publisher Escuela de Construcción Civil, Pontificia Universidad Católica de Chile
publishDate 2020
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-915X2020000300381
work_keys_str_mv AT cimsunaryo reviewdesignofwindloadanalysisstructuresguyedtensioninthebogorrepeaterradiofrequencyantennatowers
AT magribilaodemuh reviewdesignofwindloadanalysisstructuresguyedtensioninthebogorrepeaterradiofrequencyantennatowers
AT putraadrisa reviewdesignofwindloadanalysisstructuresguyedtensioninthebogorrepeaterradiofrequencyantennatowers
AT simatupangminson reviewdesignofwindloadanalysisstructuresguyedtensioninthebogorrepeaterradiofrequencyantennatowers
AT thahirazikinmuh reviewdesignofwindloadanalysisstructuresguyedtensioninthebogorrepeaterradiofrequencyantennatowers
_version_ 1714206311372029952