System and method for measuring downhole mud flow density

What is claimed is: 1. A method of determining a density of a drilling fluid in a wellbore, comprising: conveying a drill string into the wellbore, the drill string comprising a downhole rotor; flowing the drilling fluid through the drill string in the wellbore causing the downhole rotor to rotate relative to the drill string; applying a first brake torque to the downhole rotor to place the downhole rotor in a first state having a first rotor speed; measuring the applied first brake torque; applying a second brake torque to the downhole rotor to place the downhole rotor in a second state having a second rotor speed; measuring the second brake torque; and determining the density of the drilling fluid from a difference between the first brake torque and the second brake torque. 2. The method of claim 1 , further comprising measuring a first flow rate of the drilling fluid with the downhole rotor in the first state and using the measured first flow rate to determine the density of the drilling fluid. 3. The method of claim 1 , wherein a dependency of the second rotor speed on the density of the drilling fluid is neglected when determining the density of the drilling fluid. 4. The method of claim 3 , further comprising determining the first flow rate of the drilling fluid with the downhole rotor in the first state. 5. The method of claim 1 , wherein the drill string further comprises an alternator operatively connected to the downhole rotor, the alternator comprising an output connection, wherein at least one of the first brake torque and the second brake torque is applied to the downhole rotor by connecting an electrical resistance to the output connection. 6. The method of claim 5 , further comprising measuring the first rotor speed by measuring at least one of an output voltage of the alternator and an output current of the alternator. 7. The method of claim 5 , wherein at least one of the first brake torque and the second brake torque is measured by measuring at least one of an output voltage of the alternator and an output current of the alternator. 8. The method of claim 1 , wherein the drill string further comprises an alternator operatively connected to the downhole rotor and configured to power a pulser system that provides communication from the drill string to a location at the earth's surface, further comprising using the determined density to adjust an operating parameter of the pulser system. 9. The method of claim 1 , further comprising determining the density of the drilling fluid using a relation between a flow rate of the fluid and the first rotor speed, the relation corresponding to the determined applied first brake torque and the density of the drilling fluid. 10. A system for determining a density of a drilling fluid in a wellbore, comprising: a drill string in the wellbore, the drill string comprising a downhole rotor; the drilling fluid flowing through the drill string in the wellbore causing the downhole rotor to rotate relative to the drill string; a brake configured to apply a brake torque to the downhole rotor; a torque measurement system configured to measure the brake torque; and a processor configured to: control the brake to apply a first brake torque to the downhole rotor to place the downhole rotor in a first state having a first rotor speed; measure the applied first brake torque; control the brake to apply a second brake torque to the downhole rotor to place the downhole rotor in a second state having a second rotor speed; measure the second brake torque; and determine the density of the drilling fluid from a difference between the first brake torque and the second brake torque. 11. The system of claim 10 , further comprising a flow rate measurement system configured to measure a first flow rate of the drilling fluid flow with the downhole rotor in the first state, wherein the processor is configured to use the measured first flow rate to determine the density of the drilling fluid. 12. The system of claim 10 , wherein the processor is configured to neglect a dependency of the second rotor speed on the density of the drilling fluid when determining the density of the drilling fluid. 13. The system of claim 12 , wherein the processor is configured to determine the first flow rate of the drilling fluid with the downhole rotor in the first state. 14. The system of claim 10 , wherein the drill string further comprises an alternator operatively connected to the downhole rotor, the alternator comprising an output connection, and wherein the brake comprises an electrical resistance and wherein the brake applies at least one of the first brake torque and the second brake torque to the downhole rotor by connecting the electrical resistance to the output connection. 15. The system of claim 14 , further comprising a rotor speed measurement system, wherein the rotor speed measurement system is configured to measure the first rotor speed by measuring at least one of an output voltage of the alternator and an output current of the alternator. 16. The system of claim 14 , wherein the torque measurement system is configured to measure at least one of the first brake torque and the second brake torque by measuring at least one of an output voltage of the alternator and an output current of the alternator. 17. The system of claim 10 , wherein the drill string further comprises an alternator operatively connected to the downhole rotor and a pulser system configured to provide communication from the drill string to a location at the earth's surface, wherein the processor is configured to use the determined density to adjust an operating parameter of the pulser system. 18. A method of determining a density of a drilling fluid in a wellbore, comprising: conveying a drill string into the wellbore, the drill string comprising a downhole rotor; flowing the drilling fluid through the drill string in the wellbore causing the downhole rotor to rotate relative to the drill string; applying a first brake torque to the downhole rotor to place the downhole rotor in a first state; determining the applied first brake torque; measuring a first rotor speed of the downhole rotor having the drilling fluid flowing therethrough with the downhole rotor in the first state; and determining the density of the drilling fluid from the measured first rotor speed and the determined applied first brake torque. 19. The method of claim 18 , further comprising measuring a first flow rate of the drilling fluid with the downhole rotor in the first state and using the measured first flow rate to determine the density of the drilling fluid. 20. The method of claim 18 , further comprising applying a second brake torque to the downhole rotor to place the downhole rotor in a second state; measuring a second rotor speed of the downhole rotor having the drilling fluid flowing therethrough with the downhole rotor in the second state; and determining the density of the drilling fluid from the measured second rotor speed. 21. The method of claim 20 , wherein a dependency of the second rotor speed on the density of the drilling fluid is neglected when determining the density of the drilling fluid. 22. The method of claim 21 , further comprising determining the first flow rate of the drilling fluid with the downhole rotor in the first state. 23. The method of claim 20 , further comprising determining the applied second brake torque and determining the density of t