Seismic performance of wind-solar hybrid communication base stations

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Seismic performance of wind-solar hybrid communication base stations

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Solution of Mobile Base Station Based on Hybrid System of Wind

This paper designs a wind, solar, energy storage, hydrogen storage integrated communication power supply system, power supply reliability and efficient energy use through

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The Hybrid Solar-RF Energy for Base Transceiver Stations

In this work, we propose a new hybrid energy harvesting system for a specific purpose such as powering the base stations in communication networks. The hybrid solar-RF

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Presentation

Instability in the power system in six Auxiliary IMS stations in Indonesia indeed have an impact on the performance of the station. Seismic stations are equipped with sensitive instruments that

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Development of a power station unit in a distributed hybrid

Development of a power station unit in a distributed hybrid acquisition system of seismic and electrical methods based on the narrowband Internet of Things (NB-IoT)

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Multi-Axis Cyclic and Hybrid Testing of Wind Turbine Towers

The rising demand for renewable energy has driven the continuous expansion in both the size and complexity of wind turbine systems. In seismic-prone regions like East Asia,

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Seismic fragility analysis of critical facilities in communication base

This paper provides critical reference values for evaluating the seismic performance of communication equipment and provides suggestions for laying out and installing the

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Computational Study of Steel–Concrete Hybrid Wind Turbine Tower Seismic

This study presents a computational study on the seismic performance of steel-concrete hybrid towers (SCHTs). The equations that govern the tower-free vibration responses

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On the design of an optimal hybrid energy system for base

This study presents the results of techno-economic analysis of hybrid system comprising of solar and wind energy for powering a specific remote mobile base transceiver

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Seismic response analysis of steel–concrete hybrid wind turbine tower

The findings of this study contribute to the understanding of the seismic performance of high-rise hybrid solar towers under near-fault pulse-like ground motions.

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Wind-Solar Hybrid Power Technology for Communication Base

Wind-solar hybrid power system based on the wind energy and solar energy is an ideal and clean solution for the power supply of communication base station,especially for those located at

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Seismic response analysis of steel–concrete hybrid wind turbine

The findings of this study contribute to the understanding of the seismic performance of high-rise hybrid solar towers under near-fault pulse-like ground motions.

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Cellular Base Station Powered by Hybrid Energy Options

In the end, the performance of the hybrid solar PV/BG system has been thoroughly compared with the standalone solar PV, hybrid PV/wind turbine (WT), and hybrid PV/diesel

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Seismic Response Mitigation of Steel-Concrete Hybrid Wind

The results show that the base-isolated structure can greatly reduce the bending moment and shear response of the upper steel tower tube, while the story-isolated structure

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Reliability prediction and evaluation of communication base stations

In this paper, we propose a simple logistic method based on two-parameter sets of geology and building structure for the failure prediction of the base stations in post-earthquake.

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Computational Study of Steel–Concrete Hybrid Wind Turbine Tower Seismic

The seismic capacity of wind turbine support towers is of significant concern as wind power provides an increasing proportion of the world''s electricity supply. This study presents a

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Reliability prediction and evaluation of communication base stations

In order to grasp the operation condition of post-earthquake communication base stations, Liu et al. 1 from China Earthquake Administration conducted a study and analysis of

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Wind-Solar Hybrid Power Technology for Communication Base Station

Wind-solar hybrid power system based on the wind energy and solar energy is an ideal and clean solution for the power supply of communication base station,especially for those located at

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Journal of Green Engineering, Vol. 3/2

Abstract The reduction of energy consumption, operation costs and CO2 emissions at the Base Transceiver Stations (BTSs) is a major consideration in wire-less telecommunications

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Reliability prediction and evaluation of communication base

In order to grasp the operation condition of post-earthquake communication base stations, Liu et al.1 from China Earthquake Administration conducted a study and analysis of typical seismic

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Reliability prediction and evaluation of communication base

In this paper, we propose a simple logistic method based on two-parameter sets of geology and building structure for the failure prediction of the base stations in post-earthquake.

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Renewable energy sources for power supply of base station

Since base stations are major consumers of cellular networks energy with significant contribution to operational expenditures, powering base stations sites using the energy of wind, sun, fuel

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Fragility Functions Resource Report

Fragility curves provide the vulnerability between hazard intensity and an asset. Federal installations may include many different electricity and water infrastructure types (or assets)

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Seismic fragility analysis of critical facilities in communication base

Therefore, this paper conducts the seismic fragility analysis for storage battery pack (SBP) and equipment cabinet (EC), commonly used in communication base stations, through

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Hybrid Power Supply System for Telecommunication Base Station

This research paper presents the results of the implementation of solar hybrid power supply system at telecommunication base tower to reduce the fuel consumptio

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Development of seismic fragilities for a base station steel lattice

A large portion of the country of Turkey is located in a very high seismic region known as a first-degree earthquake zone where earthquakes occur frequently. Earthquakes

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The Hybrid Solar‐RF Energy for Base Transceiver Stations

The hybrid systems are designed with circuits, simulated, and compared to show their good performance to the base stations. PSIM, PROTEUS, and MATLAB software are used to

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FAQs 6

Do steel-concrete hybrid towers have seismic performance?

This study presents a computational study on the seismic performance of steel-concrete hybrid towers (SCHTs). The equations that govern the tower-free vibration responses are derived based on Euler-Bernoulli beam theory. The modal results are used in the response spectrum analysis to evaluate the higher-mode effects in the SCHTs.

Does a hybrid tower need a base-isolation system?

Figure 13 gives the comparison between the seismic response of the HYBRID TOWER with a base-isolation system and that without a base-isolation system (i.e., the seismic structure). By the way, in subsequent analysis, the term “seismic structure” refers to the “uncontrolled structure” that lack seismic isolation and damping measures.

What is a steel–concrete hybrid tubular tower structure?

The steel–concrete hybrid tubular tower structure is the mainstream structure of high-hub towers, whose lower part is a concrete tower tube and the upper part a steel tower tube. Also, there is no doubt that more and more wind turbines will work in harsh environments and seismic hazard zones.

Does soil-structure interaction affect the seismic behavior of wind turbines?

Ghaemmaghami, Mercan, and Kianoush investigated the seismic behavior of wind turbines sitting on a finite flexible soil layer and found that the effect of soil-structure interaction on the fundamental frequencies of the wind tower is insignificant.

Can modal superposition improve seismic response analysis of onshore wind turbines?

It is worth noting that Bozyigit et al. recently proposed an efficient analytical approach by combining the transfer matrix formulations and modal superposition to perform seismic response analysis of onshore wind turbines incorporating the effects of soil-structure interaction.

How to improve the seismic resistance of wind turbines?

To enhance the seismic resistance, the layer-isolated seismic technology and the passive vibration control devices are successively used for the response mitigation of wind turbines [5, 14].