Measuring abrasive flow rates in a conduit

We claim: 1. An abrasive material delivery system for use with a liquid jet cutting system, the abrasive material delivery system comprising: a valve configured to adjust or stop an inflow of abrasive material into the abrasive material delivery system from a source of abrasive material; a chamber downstream of the valve and configured to receive the inflow of abrasive material from the valve; a metering component configured to control an outflow of abrasive from the chamber to a cutting head of the liquid jet cutting system; a sensor configured to monitor movement of a top surface of a portion of abrasive material within the chamber as the top surface moves through the chamber, wherein the sensor is configured to detect the top surface of the portion of abrasive material at a first location in the chamber and at a second location in the chamber downstream of the first location; and a processing device operably connected to the sensor and configured to determine an abrasive flow rate through the metering component based on a speed of the top surface as monitored by the sensor. 2. The abrasive material delivery system of claim 1 wherein the metering component includes an adjustable cross-section orifice. 3. The abrasive material delivery system of claim 1 wherein the abrasive material delivery system is a variable flow abrasive material delivery system. 4. The abrasive material delivery system of claim 1 wherein the abrasive material delivery system is configured to connect to an abrasive hopper. 5. The abrasive material delivery system of claim 1 wherein the valve is a pinch valve configured to flatten the top surface of the portion of abrasive material. 6. The abrasive material delivery system of claim 1 wherein the metering component includes one or more of a fluidizer, a wheel, a variable area, a pneumatic component, a vibratory feed component, or a fixed orifice. 7. The abrasive material delivery system of claim 1 wherein the chamber has a substantially uniform cross-section as measured perpendicular to a flow path of abrasive material through the chamber. 8. The abrasive material delivery system of claim 1 wherein the chamber is a portion of a tube having a constant cross-section. 9. The abrasive material delivery system of claim 1 wherein the valve is configured to close and thereby form the top surface of the portion of abrasive material, wherein the processing device determines the speed of the top surface based at least in part on the sensor sensing the top surface of the portion of abrasive material at the first location and the second location, and wherein the valve is further configured to open when the top surface of the portion of abrasive material passes the second location. 10. The abrasive material delivery system of claim 1 wherein the processing device is configured to determine the speed of the top surface of the abrasive material based on a period of time between detecting the top surface at the first location and detecting the top surface at the second location. 11. The abrasive material delivery system of claim 1 wherein the sensor is configured to start a timer when the sensor detects the top surface at the first location, and wherein the sensor is further configured to stop the timer when the sensor detects the top surface at the second location. 12. The abrasive material delivery system of claim 11 wherein the valve is configured to open when the timer is stopped. 13. The abrasive material delivery system of claim 11 wherein a volume of the chamber downstream of the second location is greater than a volume of the chamber between the first location and the second location. 14. The abrasive material delivery system of claim 1 wherein the sensor is configured to periodically monitor movement of the top surface of the abrasive material. 15. The abrasive material delivery system of claim 1 wherein the chamber has a larger cross-section at a downstream end of the chamber than at an upstream end of the chamber. 16. The abrasive material delivery system of claim 1 wherein the chamber has a bulged portion between the valve and the metering component. 17. An abrasive material delivery system for use with a liquid jet cutting system, the abrasive material delivery system comprising: a valve configured to adjust or stop an inflow of abrasive material into the abrasive material delivery system from a source of abrasive material; a chamber downstream of the valve and configured to receive the inflow of abrasive material from the valve; a metering component configured to control an outflow of abrasive material from the chamber to a cutting head of the liquid jet cutting system; a sensor configured to monitor movement of a top surface of a portion of abrasive material within the chamber as the top surface moves through the chamber; and a processing device operably connected to the sensor and configured to determine an abrasive flow rate through the metering component based on a speed of the top surface as monitored by the sensor. 18. The abrasive material delivery system of claim 17 wherein the chamber is configured to contain the inflow of abrasive material in the absence of liquid and provide the outflow of abrasive to the cutting head in the absence of liquid. 19. The abrasive material delivery system of claim 17 wherein the valve is configured to close and thereby form the top surface of the portion of abrasive material, wherein the processing device determines the speed of the top surface based at least in part on the sensor sensing the top surface of the portion of abrasive material at a first point in the chamber and at a second point in the chamber, and wherein the valve is further configured to open when the top surface of the portion of abrasive material passes the second point in the chamber. 20. The abrasive material delivery system of claim 17 wherein the sensor is configured to detect the top surface of the portion of abrasive material at a first location in the chamber and to detect the top surface of the portion of abrasive material at a second location downstream of the first location, and wherein the processing device is configured to determine the speed of the top surface of the abrasive material based on a period of time between detecting the top surface at the first location and detecting the top surface at the second location. 21. The abrasive material delivery system of claim 1 , further comprising the cutting head, wherein the cutting head is configured to combine the outflow of abrasive material from the chamber with a high-pressure jet of liquid.