Non-radioactive density measurement in oilfield operations

We claim: 1. A non-radioactive densitometer system, comprising: a curved tube containing an oilfield fluid; a mass measuring device connected to the curved tube and configured to measure a mass of the curved tube and the oilfield fluid; a data acquisition system connected to the mass measuring device; an antilog amplifier connected between the mass measuring device and the data acquisition system, the antilog amplifier configured to transform the measured mass into an exponential value for input into the data acquisition system; and the data acquisition system is configured to calculate a density of the oilfield fluid in the curved tube based on the exponential value. 2. The non-radioactive densitometer system of claim 1 , wherein the antilog amplifier is configured to transform the measured mass into the exponential value by applying the following equation: Iout=a×Exp(b×mof) (Equation III) wherein, Iout is a signal output from the antilog amplifier; a and b are constants; mof is the mass of the curved tube filled with the oilfield fluid minus the mass of the curved tube when empty. 3. The non-radioactive densitometer system of claim 1 , wherein the oilfield fluid is proppant slurry. 4. The non-radioactive densitometer system of claim 1 , wherein the curved tube is substantially in the form of a “U” or “V” shape. 5. The non-radioactive densitometer system of claim 1 , wherein the curved tube occupies a substantially horizontal plane. 6. The non-radioactive densitometer system of claim 1 , wherein the mass measuring device is a load cell. 7. The non-radioactive densitometer system of claim 6 , wherein the load cell is an extension load cell. 8. The non-radioactive densitometer system of claim 7 , wherein the extension load cell is connected to a tripod on one end and to the curved tube on the other end. 9. A method for measuring a density of an oilfield fluid, comprising: providing a curved tube at an oilfield; filling the curved tube with an oilfield fluid; measuring a mass of the curved tube filled with the oilfield fluid; conducting an exponential transformation of the mass of the curved tube filled with the oilfield fluid before calculating the density of the oilfield fluid and calculating a density of the oilfield fluid based on the exponential transformation of the measured mass. 10. The method of claim 9 , wherein the exponential transformation is performed by applying the following equation: I out =a ×Exp( b×m of )  (Equation III) wherein, I out is a signal output from the antilog amplifier; a and b are constants; m of is the mass of the curved tube filled with the oilfield fluid minus the mass of the curved tube when empty. 11. The method of claim 9 , wherein the oilfield fluid is proppant slurry. 12. The method of claim 9 , wherein the curved tube is substantially in the form of a “U” or “V” shape. 13. The method of claim 9 , wherein the curved tube occupies a substantially horizontal plane. 14. A non-radioactive densitometer apparatus, comprising: a curved tube containing an oilfield fluid therein; a load cell connected to the curved tube and configured to measure a mass of the curved tube and the oilfield fluid; a computer system connected to the load cell; and an antilog amplifier connected between the load cell and the computer system; the antilog amplifier configured to transform the measured mass into an exponential value for input into the computer system, the computer system configured to calculate a density of the oilfield fluid contained in the curved tube based on the exponential value. 15. The non-radioactive densitometer apparatus of claim 14 , wherein the exponential transformation is performed by applying the following equation: Iout=a×Exp(b×mof) (Equation III) wherein, Iout is a signal output from the antilog amplifier; a and b are constants; mof is the mass of the curved tube filled with the oilfield fluid minus the mass of the curved tube when empty. 16. The non-radioactive densitometer apparatus of claim 14 , wherein the oilfield fluid is proppant slurry.