System and method for controlling the engagement of a PTO clutch for a work vehicle

What is claimed is: 1. A method for controlling the engagement of a power take-off (PTO) clutch of a work vehicle, the method comprising: controlling, with a computing device, an operation of a clutch valve to initiate engagement of the PTO clutch; monitoring, with the computing device, a clutch torque transmitted through the PTO clutch during engagement of the PTO clutch; while the PTO clutch is being engaged, determining, with the computing device, an estimated clutch energy transmitted through the PTO clutch based on the clutch torque; comparing, with the computing device, the estimated clutch energy to a maximum allowable clutch energy for the PTO clutch; and if the estimated clutch energy is greater than or equal to the maximum allowable clutch energy, controlling, with the computing device, the operation of the clutch valve so as to terminate the engagement of the PTO clutch. 2. The method of claim 1 , wherein controlling the operation of the clutch valve to initiate engagement of the PTO clutch comprising increasing a current command transmitted to the clutch valve. 3. The method of claim 2 , wherein controlling the operation of the clutch valve so as to terminate the engagement of the PTO clutch comprises immediately reducing the current command to zero when the estimated clutch energy is greater than or equal to maximum allowable clutch energy. 4. The method of claim 1 , wherein monitoring the clutch torque transmitted through the PTO clutch comprises receiving measurement signals from a torque sensor configured to monitor the clutch torque. 5. The method of claim 1 , wherein monitoring the clutch torque transmitted through the clutch valve comprises estimating the clutch torque based on a pressure of hydraulic fluid supplied by the clutch valve. 6. The method of claim 1 , wherein the maximum clutch energy ranges from about 400 kilojoules (kJ) to about 500 kJ. 7. The method of claim 1 , wherein determining the estimated clutch energy transmitted through the PTO clutch comprises: determining an estimated clutch power transmitted through the PTO clutch based on the clutch torque and a relative angular velocity associated with the PTO clutch; and determining the estimated clutch energy as a function of the estimated clutch power. 8. The method of claim 7 , further comprising: comparing the estimated clutch power to a maximum allowable clutch power for the PTO clutch; and if the estimated clutch power is greater than or equal to the maximum allowable clutch power, reducing a current command supplied to the clutch valve in order to reduce the torque transmitted through the PTO clutch. 9. The method of claim 1 , further comprising: monitoring an engine speed of an engine of the work vehicle during engagement of the PTO clutch; while the PTO clutch is being engaged, determining a speed deceleration rate for the engine based on the monitored engine speed; and if the monitored engine speed is less than or equal to a predetermined engine stall speed for the engine and the speed deceleration rate is greater than or equal to a predetermined deceleration rate threshold for the engine, controlling the operation of the clutch valve so as to terminate the engagement of the PTO clutch. 10. The method of claim 9 , wherein the predetermined engine stall speed ranges from about 450 RPM to about 700 RPM and the predetermined deceleration rate threshold is equal to at least about 20 RPM per second. 11. A method for controlling the engagement of a power take-off (PTO) clutch of a work vehicle, the method comprising: controlling, with a computing device, an operation of a clutch valve to initiate engagement of the PTO clutch; monitoring, with the computing device, an engine speed of an engine of the work vehicle during engagement of the PTO clutch; while the PTO clutch is being engaged, determining, by the computing device, a speed deceleration rate for the engine based on the monitored engine speed; comparing, with the computing device, the monitored engine speed to a predetermined engine stall speed for the engine; comparing, with the computing device, the speed deceleration rate to a predetermined deceleration rate threshold for the engine; and if the monitored engine speed is less than or equal to the predetermined engine stall speed and the speed deceleration rate is greater than or equal to the predetermined deceleration rate threshold, controlling, with the computing device, the operation of the clutch valve so as to terminate the engagement of the PTO clutch. 12. The method of claim 11 , wherein determining the speed deceleration rate for the engine comprises estimating the speed deceleration rate using a curve fitting algorithm. 13. The method of claim 12 , wherein the curve fitting algorithm corresponds to a linear curve fitting algorithm. 14. The method of claim 11 , wherein the predetermined engine stall speed ranges from about 450 RPM to about 700 RPM. 15. The method of claim 11 , wherein the predetermined deceleration rate threshold is equal to at least about 20 RPM per second. 16. The method of claim 11 , wherein controlling the operation of the clutch valve to initiate engagement of the PTO clutch comprising increasing a current command transmitted to the clutch valve. 17. The method of claim 16 , wherein controlling the operation of the clutch valve so as to terminate the engagement of the PTO clutch comprises immediately reducing the current command to zero when the monitored engine speed is less than or equal to the predetermined engine stall speed and the speed deceleration rate is greater than or equal to the predetermined deceleration rate threshold. 18. The method of claim 11 , further comprising: monitoring a clutch torque transmitted through the PTO clutch during engagement of the PTO clutch; while the PTO clutch is being engaged, determining an estimated clutch energy transmitted through the PTO clutch based on the torque clutch; and if the estimated clutch energy is greater than or equal to a maximum allowable clutch energy associated with the PTO clutch, controlling the operation of the clutch valve so as to terminate the engagement of the PTO clutch, wherein determining the estimated clutch energy transmitted through the PTO clutch comprises: determining an estimated clutch power transmitted through the PTO clutch during engagement of the PTO clutch based on the clutch torque and a relative angular velocity associated with the PTO clutch; and determining the estimated clutch energy as a function of the estimated clutch power. 19. The method of claim 18 , further comprising: comparing the estimated clutch power to a maximum allowable clutch power for the PTO clutch; and if the estimated clutch power is greater than or equal to the maximum allowable clutch power, reducing a current command supplied to the clutch valve in order to reduce the torque transmitted through the PTO clutch.