DIGITALLY MONITORING OF COMPOSITE PRESSURE VESSEL

Abstract

System and method for digitally monitoring a pressure vessel for holding compressed gas, wherein the system comprises a sensor unit placeable on the pressure vessel for gathering information regarding the condition of the pressure vessel, a communication unit for wirelessly communicating the gathered information to a receiver wherein the sensor unit comprises a temperature sensor for measuring the temperature of the pressure vessel, a gas pressure sensor, at least one power unit for supplying power to the sensors and the communication unit.

Description

Claims

1. System for digitally monitoring a pressure vessel for holding compressed gas, wherein the system comprises a sensor unit placeable on the pressure vessel for gathering information regarding the condition of the pressure vessel, a communication unit for wirelessly communicating the gathered information to a receiver wherein the sensor unit comprises: • a temperature sensor for measuring the temperature of the pressure vessel,• a gas pressure sensor,• at least one power unit for supplying power to the sensors and the communication unit.

2. System according to claim 1 wherein the system further comprises a capacitive sensor for measuring the level of gas in liquid phase in the pressure vessel.

3. System according to claim 2 wherein the capacitive sensor for measuring the level of gas in liquid phase in the pressure vessel is configured to give a warning if the pressure vessel is overfilled.

4. System according to claim 1 wherein the sensor unit is in the form of a strip adapted to extend substantially the vertical length of the pressure vessel.

5. System according to claim 1 further comprising a shock sensor for measuring shocks the pressure vessel has been subjected to in the form of at least one capacitance pressure sensor.

6. System according to claim 1 wherein the communication unit is a short-range radio communication unit, such as a Bluetooth unit, for communicating information gathered by the sensors to the receiver.

7. System according to claim 1 wherein the receiver is a mobile app or an IoT internet gateway or a display placeable on the pressure vessel.

8. System according to claim 1 wherein the power unit is an energy harvester chip.

9. System according to claim 1 wherein the gas pressure sensor is a capacitive double E sensor.

10. System according to claim 1 wherein the pressure vessel is a composite pressure vessel comprising an inner liner, a layer of composite material and an outer casing, and the sensor unit can be placed inside the liner, attached to the outside of the liner, on the inside of the composite material, on the outside of the composite material, on the inside of the outer casing and on the outside of the outer casing.

11. System according to claim 1 wherein the pressure vessel is a metal pressure vessel and the sensor unit can be placed on the inside of the metal pressure vessel, and on the outside of the metal pressure vessel.

12. System according to claim 1 wherein the pressure vessel is a liner free composite pressure vessel and the sensor unit can be placed on the inside, within or outside the composite material.

13. Method for digitally monitoring a pressure vessel for holding compressed gas, comprising a sensor unit and a communication unit for wirelessly communicating the measurements to a receiver attached to the pressure vessel; wherein the sensor unit comprises a temperature sensor for measuring the temperature the pressure vessel is being subjected to, a gas pressure sensor, optionally a shock sensor for measuring shocks the pressure vessel is being subjected to, and at least one power unit for supplying power to the sensors and the communication unit wherein the method comprises the following steps: • supplying power from the power unit to the sensors• measuring the temperature, the gas pressure and optionally shock in the pressure vessel,• optionally temporarily storing the measured information in a flash memory on the pressure vessel,• transmitting the measured and/or the stored information with the communication unit to a receiver,• transmitting the information from the receiver a user.

14. Method according to claim 13 comprising measuring of content either by measuring the amount using capacitance or using a gas pressure measuring and a temperature measuring dependent on the type of gas.

15. Method according to claim 13 wherein the power unit includes an energy harvester chip and the method includes harvesting energy from radio waves and supplying harvested energy to the power unit.

16. Method according to claim 13 wherein the communication unit uses Bluetooth communication protocol for transmitting the information to the receiver.

17. Method according to claim 13 wherein the receiver is an IoT Gateway that can receive information from a plurality of the pressure vessels.