SHM System implements the following projects financed by European Funds:
1. “A critical stress detector for steel pipelines”
The aim of the project is to develop and implement world unique technology for the detection of critical states of stress in steel pipelines. The analysis of numerical models of the yielding phenomenon (FEM modeling) and experimental testing on test stands were selected as the main research methods. The detector developed within the framework of the project, in the form of a sensor band, together with the technology of its application, will enable monitoring of the technical condition of pipeline structures within the scope which has not been available so far and will provide key data, from the point of view of the assessment of the safety of the pipeline operation, on the stress state of the pipeline with the unambiguous signaling of critical stresses – yielding.
The value of the project is 15,508,765.00 PLN, including the contribution of European Funds: 11,288,081.95 PLN.
2. “PDS – Plastic deformation sensor”
The result of the project will be a plastic deformation sensor – the world’s first plasticization sensor (hereinafter PDS) for detecting the moment of yielding of the material in situ. The solution will allow to unambiguously determine the time when the material reaches the limit of elastic deformation and starts to work in the field of plastic deformation (yield point). The sensor will detect yielding only on the basis of the obtained measurement data, without knowing the strength characteristics of the material, the technical condition of the structural element and its initial state of deformation. The value of the project is 6,437,105.00 PLN, including the contribution of European Funds: 5,010,709.00 PLN.
3. “Innovative fiber optic sensor for strain and temperature measurement”
The subject of the project is to carry out R&D works aiming at developing Innovative in Poland and in the world Fibre Optic Sensor for measuring Strain and Temperature of the centre using the same sensor in DFOS technology (hereinafter referred to as ISCOT). The result of the project will introduce a completely new quality on the market of fiber optic strain sensors using DFOS (Distributed Fibre Optic Sensing) technology. The value of the project is 6,506,871.59 PLN, including the contribution of European Funds: PLN 5,003,995.24.
4. “Development of a new hydraulic sensor for vertical displacement profile measurement”
The aim of the project is to conduct research and development work in order to develop a new hydraulic sensor for measurement of vertical displacement profile of the investigated medium. The new sensor will allow for determination of vertical displacements changing in time in selected points or the profile of vertical displacements of such media as elements of engineering structures (e.g. bridges, flyovers), construction structures (e.g. floor beams, roof beams) or soil (e.g. in order to track the process of consolidation) on sections of up to 300 m in length. The value of the project is PLN 4,402,172.64, including the contribution of the European Funds: PLN 3,346,953.22.
5. “Development of a new fiber optic sensor enabling determination of vertical and horizontal displacement profiles of investigated objects on the length of up to 120 km”
The aim of the project is to conduct industrial research and development of a new fiber optic sensor, used for 3D measurement of vertical and horizontal displacement of the medium surrounding the sensor. Knowledge gained in the course of the project will allow the introduction of a new fiber optic sensor to the market. The value of the project is PLN 4,932,158.36, including the contribution of European Funds: PLN 3,788,071.11.
6. “Extension of the industrial property protection for the invention entitled: “Method for continuous measurement of the displacement profile of building objects…”
The aim of the project is to obtain the possibility of extending industrial property protection on the basis of priority of the national invention application P.412838 entitled: “Method for continuous measurement of displacement profile of buildings and a sensor for implementation of this method”.