Sensing device, system and method for a pump

The invention claimed is: 1. A sensing device for a centrifugal slurry pump having an impeller which rotates about an axis, the centrifugal slurry pump including a front side liner and a main liner housed within an outer casing of the pump, the front side liner comprising a front face and a rear face, the front face arranged to face the impeller housed within the main liner, and the rear face arranged to face the outer casing the sensing device comprising: a body portion arranged to pass through the outer casing, wherein the body portion includes a sensor in contact with the front side liner, wherein the sensor is biased towards contact with the front side liner, the front side liner arranged to be axially adjustable with respect to the main liner, and the sensor arranged to remain biased towards and in contact with the front side liner when the front side liner is axially adjusted with respect to the main liner of the pump. 2. The sensing device in accordance with claim 1 , wherein the sensor senses a distance between the front face and the rear face to provide at least one thickness reading for the front side liner. 3. The sensing device in accordance with claim 2 , wherein the at least one thickness reading includes a first thickness reading and a second thickness reading, where the first thickness reading and the second thickness reading are separated by a period of use of the pump. 4. The sensing device in accordance with claim 3 , wherein the body portion includes a head portion, said head portion including a communication module in connection with the sensor. 5. The sensing device in accordance with claim 4 , wherein the head portion is arranged to be located outside an outer surface of the outer casing. 6. The sensing device in accordance with claim 4 , wherein the communication module transmits each of the first thickness reading and the second thickness reading from the sensor to a computing device. 7. The sensing device in accordance with claim 6 , wherein the computing device compares the first thickness reading and the second thickness reading to determine a change in thickness of the front side liner for the period of use. 8. The sensing device in accordance with claim 7 , wherein the computing device signals the axial adjustment of a position of the front side liner relative to the main liner in accordance with the change in thickness of the front side liner such that the distance between the front side liner and an impeller housed in the main liner remains constant. 9. The sensing device in accordance with claim 4 , wherein the body portion includes an elongate tube member, wherein the elongate tube member is slidingly received within the head portion. 10. The sensing device in accordance with claim 9 , wherein a first end of the elongate tube member includes a bias mechanism that biases the elongate tube member towards the front side liner of the pump. 11. The sensing device in accordance with claim 10 , wherein the bias mechanism is a spring. 12. The sensing device in accordance with claim 10 , wherein a second end of the elongate tube member portion includes the sensor. 13. The sensing device in accordance with claim 10 , wherein the body portion is cylindrically shaped. 14. The sensing device in accordance with claim 10 , wherein the head portion further comprises at least one power source. 15. The sensing device in accordance with claim 14 , wherein the at least one power source is connected to the communication module and powers the operation of the sensor. 16. The sensing device in accordance with claim 15 , wherein the sensing device includes a wired connection that joins the communication module to an ultrasonic device. 17. The sensing device in accordance with claim 16 , wherein the wired connection is an expandable and contractible coil of insulated wire. 18. The sensing device in accordance with claim 16 , wherein the wired connection is arranged to enable the relative movement of the elongate tube member relative to the head portion. 19. The sensing device in accordance with claim 14 , wherein the at least one power source is a Lithium battery. 20. The sensing device in accordance with claim 1 , wherein the body portion includes a connection portion that is arranged to be connected to the outer casing. 21. The sensing device in accordance with claim 20 , wherein the body portion is removably connected to the connection portion such that the sensing device passes through the outer casing of the pump. 22. The sensing device in accordance with claim 1 , wherein the sensor is an ultrasonic sensor. 23. The sensing device in accordance with claim 22 , wherein the ultrasonic sensor is an ultrasonic transducer. 24. The sensing device in accordance with claim 23 , wherein the ultrasonic transducer is a piezoelectric transducer. 25. A system for detecting wear in a centrifugal slurry pump with a front side liner and a main liner housed within an outer casing, wherein the front side liner is arranged to be axially adjustable with respect to the main liner, said system comprising: at least one sensing device arranged to pass through the outer casing, wherein the at least one sensing device includes a sensor biased towards contact with the front side liner and which is arranged to remain biased towards and in contact with the front side liner when the front side liner is axially adjusted with respect to the main liner. 26. The system in accordance with claim 25 , wherein the sensor detects a first thickness reading and a second thickness reading of the front side liner. 27. The system in accordance with claim 26 , wherein the system further includes a computing device in communication with the at least one sensing device, the computing device being arranged to receive the first thickness reading and the second thickness reading from the at least one sensing device to determine a change in thickness of the side liner or the main liner. 28. The sensing device in accordance with claim 25 , wherein the computing device uses the first thickness and the second thickness reading to determine a change in thickness of the front side liner. 29. The system in accordance with claim 28 , wherein a user axially adjusts the front side liner relative to the main liner in accordance with the change in thickness of the front side liner. 30. A method of detecting wear in a centrifugal slurry pump with a front side liner and a main liner housed within an outer casing, wherein the front side liner is arranged to be axially adjustable with respect to the main liner, the method comprising the steps of: arranging at least one sensing device to pass through a surface of the outer casing, the at least one sensing device including a sensor; arranging the at least one sensing device relative to the pump such that the sensor is biased towards and in contact with the front side liner; communicating a first thickness reading and a second thickness reading of the front side liner from the at least one sensing device to a computing device; determining a change in thickness of the front side liner due to wear using the computing device; and axially adjusting the front side liner relative to the main liner in accordance with the change in thickness of the front side liner.