Structural Health Monitoring Against Coastal Erosion

Beach-cast litter and coastal erosion – the entire Mediterranean coastline is facing two severe problems. By developing a smart recycling circuit and using the outcome to protect the coastline, the Eco-Smart Breakwater project transforms the existing problem into a new opportunity. A significant role in this development is covered by HBK: the measuring and monitoring of essential structural conditions.

Covering All Monitoring Needs: HBK Optical Sensors

One or more proposals for the type of sensor to be used were considered for each category of parameter monitored (mechanical, hydrodynamic and biological), to determine the solution that would cover the required range of parameters while minimizing overall costs. 

The most versatile, high performance and cost-effective solution consists of HBK optical fiber Bragg grating sensors (FS series), used in conjunction with an FS22 BraggMETER interrogator as an acquisition system.

The sensors used are strain sensors (FS62), temperature sensors (FS63), and accelerometers (FS65). Optical fiber Bragg grating (FBG) sensors are chosen as they may be used to monitor both, structural (deformation and vibration) and environmental (temperature) parameters. Multiple sensors are connected to one another in a chain configuration, the chain then is connected to the optical interrogator.

Validation: Close Examination on the Sensors' Suitability

The pre-wrapped Carambars are placed in a hopper, which is used as buffer storage. They are taken by a cleated belt conveyor at a 45° angle, which pours them into plastic crates. Once full, the crates move along a conveyor system, before they are finally picked up by a collaborative robot, that places them on a pallet. “The specifications required a knowledge of the global weight of Carambars loaded onto each pallet. Rather than assessing the pallet, we have decided to weigh each crate individually and calculate the overall heaviness of the crates loaded onto the pallet,” explains Samuel Hacquin. “The load cell was placed under the crate, which had been filled by the cleat conveyor belt. This type of conveyor is obviously not suitable for dosing, as the sweets fall randomly by the dozen into the crate, so there is no precise control over their release. This does not matter though, as the crates don’t contain a specific number of sweets. What really matters is that we know the precise weight of each crate. The load cell needs to have a high level of accuracy and good repeatability - and obviously it must be sturdy because it is used a lot. The filling process for a crate takes a few seconds and - during this period of time - the cell weighs the empty crate before it’s filled. It carries out dynamic weighing to decide when to stop filling and then weighs the crate once it’s full.

Sensor Positioning: Gathering Inside and Outside Data

The optical fiber sensors are configured and installed in two chains.

The pre-wrapped Carambars are placed in a hopper, which is used as buffer storage. They are taken by a cleated belt conveyor at a 45° angle, which pours them into plastic crates. Once full, the crates move along a conveyor system, before they are finally picked up by a collaborative robot, that places them on a pallet. “The specifications required a knowledge of the global weight of Carambars loaded onto each pallet. Rather than assessing the pallet, we have decided to weigh each crate individually and calculate the overall heaviness of the crates loaded onto the pallet,” explains Samuel Hacquin. “The load cell was placed under the crate, which had been filled by the cleat conveyor belt. This type of conveyor is obviously not suitable for dosing, as the sweets fall randomly by the dozen into the crate, so there is no precise control over their release. This does not matter though, as the crates don’t contain a specific number of sweets. What really matters is that we know the precise weight of each crate. The load cell needs to have a high level of accuracy and good repeatability - and obviously it must be sturdy because it is used a lot. The filling process for a crate takes a few seconds and - during this period of time - the cell weighs the empty crate before it’s filled. It carries out dynamic weighing to decide when to stop filling and then weighs the crate once it’s full.

The system is completed by a set of devices and software which acquire the data from the sensors, store it locally and transmit it to the remote systems.

Monitoring the Breakwater Element in the Marine Environment

In the running project, after test and validation, the ECOSMART – BREAKWATER elements were transported to and installed at the breakwater of the port of Otranto. This site was chosen because the cubic and parallelepiped geometry of the artificial elements, which are used to construct the breakwater, facilitated the inclusion of the new element.

The pilot test along the breakwater gives further information on the optimum compound of the element, which is planned to be patented before being introduced to the market. Additionally, it becomes possible to verify the quality of the sensor data wireless, even in rough conditions.

About CETMA

CETMA, Technologies Design and Materials European Research Centre, founded in 1994, is a Research and Technology Organization (RTO) based in Brindisi, Italy. It carries out over than 20 years applied research, experimental development and technology transfer in the field of advanced materials (composites, polymers, bio-based and recycled), ICT (development of specialized software for engineering, manufacturing and services) and product development. It is a non-profit organization and reinvests all profits in research, training and technology transfer.