Two-phase flow detector using heat transfer in cross flow

The invention claimed is: 1. An apparatus comprising: a temperature sensing device comprising a plurality of thermocouples having a sensing tip and wiring that is connected to a potentiometer; a hollow tube, wherein the sensing tips of the thermocouples pass through the inner wall of the hollow tube and extend radially from the hollow tube to contact the outer wall at different locations along the length of the hollow tube; a heat flux source that is connected to the hollow tube, wherein the heat flux source heats the walls of the hollow tube; wherein the hollow tube is inserted through a cross section of a pipe perpendicular to a longitudinal axis of the pipe such that no more than 80% of the hollow tube is within the interior of the pipe relative to the total length of the hollow tube; wherein a ratio of the hollow tube outer diameter to inner diameter is at least 3:2, a ratio of the hollow tube longitudinal length to outer diameter is at least 39:4, and a ratio of the inner diameter of the hollow tube to the inner diameter of the pipe is at least 1:3; and wherein the apparatus measures a void fraction in a two-phase liquid-gas mixture flowing through the pipe. 2. The apparatus of claim 1 , wherein the hollow tube is at least 1 inch in inner diameter. 3. The apparatus in claim 1 , wherein the hollow tube is secured to the pipe by a threaded coupling fitting. 4. The apparatus in claim 1 , wherein at least a portion of the hollow tube is covered by a thermal insulation material. 5. The apparatus in claim 1 , wherein the wiring of the thermocouple is aligned with the longitudinal axis of the hollow tube and flush with the interior wall of the hollow tube. 6. The apparatus in claim 1 , wherein the wiring of the thermocouple is insulated. 7. The apparatus of claim 1 , further comprising an external thermocouple located outside of the hollow tube and within the interior of the pipe, which measures the external temperature of the tube. 8. The apparatus of claim 1 , which has at least 4 thermocouples. 9. The apparatus of claim 1 , wherein the heat flux source produces at least 0.5 kW of power. 10. The apparatus in claim 1 , further comprising an electronics housing unit comprising the potentiometer connected to the thermocouples and a heat flux controller connected to the heat flux source. 11. The apparatus in claim 10 , further comprising: a computer connected to the potentiometer and the heat flux controller. 12. The apparatus of claim 1 , wherein the two-phase liquid-gas mixture is selected from a hydrocarbon, a heat transfer fluid, an aqueous fluid, or a combination thereof. 13. A method of measuring void fraction in a two-phase liquid-gas mixture comprising: heating the hollow tube of claim 1 to a temperature in the range of 20° C.-34° C. to form a heated hollow tube; recording a baseline temperature measurement on the outer surface of the heated hollow tube before liquid-gas mixture flow through the pipe and a temperature measurement from the plurality of thermocouples on the outer wall of the heated hollow tube in the presence of liquid-gas mixture flow through the pipe; calculating the difference between the baseline temperature measurement and the temperature measurement in the presence of liquid-gas mixture flow; and determining the void fraction in the two-phase flow of liquid-gas mixture through the pipe based on the calculated difference. 14. The method of claim 13 , wherein the calculating further comprises averaging the temperature measurements of the outer wall of the hollow tube from the plurality of thermocouples. 15. The method of claim 13 , wherein the temperature measurement is recorded after a stable temperature is reached. 16. The method of claim 13 , wherein the determining comprises correlating the temperature difference to the void fraction from a curve of temperature difference as a function of void fraction.