Damián Álvarez Sala scite author profile

Damián Álvarez Sala

5Publications

10Citation Statements Received

48Citation Statements Given

How they've been cited

How they cite others

Affiliations

Adaptronica (Poland), Institute of Fundamental Technological Research

Publications

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Monitoring of the Static and Dynamic Displacements of Railway Bridges with the Use of Inertial Sensors

Olaszek

Wyczałek

Sala

et al. 2020

Sensors

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In the case of the monitoring of bridges, the determination of vertical displacements is one of the most important issues. A new measuring system has been developed and implemented for assessment of railway bridges based on measurements of the structural response to passing trains. The system uses inertial sensors: Inclinometers and accelerometers that do not need any referential points. The system records signals related to the passage of a train over a monitored bridge. The signals from inclinometers before the train’s entry are used to determine the static movement. Integrated signals from inclinometers and accelerometers are used to determine dynamic displacements when the train goes through the bridge. Signals from inclinometers are used to determine the so-called “quasi-static” component of the displacement and signal from the accelerometer to determine the dynamic component. Field tests have been carried out on a viaduct along a high-speed railway line. Periodic comparative measurements are carried out using a Total Station to verify static measurements and using inductive sensors to verify dynamic measurements. Tests of the system carried out so far have proven its usefulness for monitoring bridges in a high-speed railway (up to 200 km/h) with high accuracy while determining dynamic displacements.

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Detection of Leaks in a Small-scale Water Distribution Network based on Pressure Data – Experimental Verification

Sala

Kołakowski

2014

Procedia Engineering

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Monimost - Integrated SHM System for Railway Truss Bridges

Sala

Pawłowski

Kołakowski

et al. 2012

KEM

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A railway bridge has been the object of investigation since mid 2007 as a response to increasing interest in structural health monitoring (SHM) from Polish Railways. It is a typical 40 m long, steel truss structure spanning a channel in Nieporet near Warsaw. There is over 1500 similar bridges in the railway network in Poland. The integrated system consists of two components weigh in motion (WIM) part for identification of train load and SHM part for assessing the state of the bridge. Two aspects of wireless transmission are considered short range (in the vicinity of the bridge, 2.4GHz) and far range (from the bridge to the data analysis center, GSM). The system is designed to be energetically self-sufficient, batteries are recharged by solar panels. Both the subsystems use piezoelectric strain sensors. Numerical model of the bridge corresponds well to the experimental data and provides a good starting point for considering different scenarios of simulated damage in the structure.

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Railway bridge monitoring system using inertial sensors

Olaszek¹,

Sala²,

Kokot³

et al. 2018

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Wodnik - innowacyjny system do wykrywania wycieków oraz optymalnego sterowania w sieciach wodociągowych, oparty na zdalnie przesyłanych danych pomiarowych - wyniki badań

Sala

Kołakowski

Klimkowski³

et al. 2016

GAS, WATER AND SANITARY ENGINEERING

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