QIND – New Sensor Principles Based on Quantum Technology for Process Automation
Sensors for industrial applications in process engineering are used on a large scale in the process industry and are required in high volumes. They play a crucial role in the production of everyday goods. Process conditions in typical sectors such as the food, pharmaceutical, and petrochemical industries place high demands on sensor accuracy, robustness, and reliability. These requirements can only be met to a limited extent with current sensor concepts. By using quantum sensors, both the range of applications and measurement accuracy can be significantly enhanced. Within the QIND project, quantum sensors for use under extreme conditions—particularly with respect to pressure and temperature—will therefore be investigated and developed.
Within the QIND project, pressure and level sensors for use in industrial process engineering are to be developed. One objective is the realization of a pressure sensor based on quantum sensing that is robust under industrial process conditions (–60 to 200 °C) and capable of measuring pressures in a range from 10 kPa to 200 MPa. In addition, a robust level (limit) sensor is to be developed for external or flush-mounted installation in a vessel, suitable for processes at temperatures of up to 250–450 °C and pressure ranges between <100 and 300 bar. To meet these demanding requirements, new sensor concepts, assembly and interconnection technologies (AIT), and integration strategies must be developed that can withstand harsh operating conditions.
For the realization of the pressure sensors, a novel sensor concept is being developed that enables direct pressure measurement based on NV centers. For this purpose, an optimized diamond layer is integrated into a silicon-based optical transmitter–receiver microsystem module. In addition, an alternative approach for indirect pressure measurement will be investigated, in which a magnetostrictive layer generates a pressure-dependent magnetic field that can be detected using quantum-physical principles.
Level and limit detection focuses on measuring susceptibility when a change of medium (e.g. air/liquid) occurs inside a vessel. To detect even the smallest variations, NV centers are also used here, with particular emphasis on guiding the magnetic field and shielding against unwanted electromagnetic radiation. Through the developments within QIND, key unique features of quantum sensors—such as calibration-free and contactless measurement—are demonstrated for industrial process engineering. Such sensors have the potential to comprehensively meet existing customer requirements and open up new fields of application.
