Method and apparatus for estimating fouling factor and/or inverse soluble scale thickness in heat transfer equipment

Wherein we claim: 1. A method of detecting fouling or scaling of a heated wetted test surface comprising heating a conductive block using a heater; said conductive block having a first end comprising said heated wetted test surface, and a second end opposite said first end; contacting said heated wetted test surface with a first liquid; measuring the temperatures at first and second positions along said conductive block wherein said first position is closer to said heated wetted test surface than said second position to obtain first and second temperature measurements; comparing first and second temperature measurements at said first and second positions to establish a reference temperature difference with no fouling or scaling on said heated wetted test surface; determining fouling or scaling on said surface by subsequently measuring temperatures at said first and second positions and detecting changes in temperature differences between said temperatures at said first and second positions relative to said reference temperature difference. 2. The method claimed in claim 1 wherein said first and second positions are between said heater and said heated wetted test surface. 3. The method claimed in claim 1 , wherein said first and second positions arc between said heater and said second end opposite said first end. 4. The method claimed in claim 1 , further comprising providing a first material around a peripheral surface of said conductor and providing a second material at said second end wherein said first and second materials have different heat conduction coefficients. 5. The method claimed in claim 1 , wherein a flow rate of scale control chemicals is adjusted in response to changes in heat conductivity of accumulating scale on said heated wetted test surface. 6. The method claimed in claim 1 , further comprising measuring the thickness of deposits on said wetted surface. 7. The method claimed in claim 6 , wherein said thickness is measured using sound waves. 8. The method claimed in claim 1 , further comprising providing insulation around a peripheral surface of said conductive block whereby heat resistance is greater radially outward from said conductor than from said conductive block than through said second end. 9. The method claimed in claim 8 , further comprising adjusting a temperature of said exterior surfaces utilizing a heat exchange fluid surrounding said exterior surfaces. 10. The method claimed in claim 9 , further comprising controlling the temperature of said exterior surfaces by adjusting the flow or temperature of said heat exchange fluid. 11. The method claimed in claim 10 , wherein said heat exchange fluid is the same as said first liquid. 12. The method claimed in claim 1 , further comprising at least partially surrounding said first and second materials with a heat sink. 13. The method claimed in claim 12 , further comprising projecting a heat exchange fluid over said heat sink to control the temperature of said exterior surfaces. 14. The method claimed in claim 13 , further comprising controlling said heat exchange fluid to establish a desired temperature of said exterior surface. 15. The method claimed in claim 13 , wherein said heat exchange fluid comprises at least one of air and a water mist. 16. An apparatus to detect fouling or scale on a heated wetted test surface wherein said heated wetted test surface is in a liquid flow path in contact with a bulk liquid comprising; a heater; a conductive block having a first end comprising said heated wetted test surface and a second end opposite said first end and a peripheral surface; a first temperature sensor within said conductive block at a first position close to said heated wetted test surface; a second temperature sensor within said conductive block at a second position close to said heater and further from said heated wetted test surface than said first temperature sensor; wherein said second end has a higher heat conductivity than said peripheral surface. 17. The apparatus claimed in claim 16 , wherein said first and second positions are offset sufficiently to avoid interference with heat flux. 18. The apparatus claimed in claim 16 , wherein said apparatus further includes a device operable to measure scale thickness on said heated wetted test surface by directing wave energy against said wetted surface. 19. The apparatus claimed in claim 16 , wherein said apparatus is at least partially surrounded by heat exchange fluid. 20. The apparatus claimed in claim 16 , further comprising a second heater at said second end. 21. The apparatus claimed in claim 16 , further comprising a third heater in contact with at least a portion of said peripheral surface. 22. The apparatus claimed in claim 16 , wherein at least one of said peripheral surface and said second end includes insulation. 23. The apparatus claimed in claim 22 , wherein said peripheral surface is at least partially surrounded by a heat sink. 24. The apparatus claimed in claim 16 , wherein said conductive block comprises a first material and has a thin layer of a second material bonded to said first end wherein said layer of second material comprises said heated wetted test surface. 25. The apparatus claimed in claim 24 , wherein said second material comprises a corrosion resistant material. 26. The apparatus claimed in claim 16 , wherein said conductive block is a layer of a third material at said second end wherein said third material has a different thermal conductivity than a thermal conductivity of said first mate. 27. An apparatus to detect fouling or scale on a heated welted test surface wherein said heated wetted test surface is in a fluid flow path comprising; a heater; a conductive block having a first end comprising said heated wetted test surface and a second end opposite said first end and a peripheral surface; a first temperature sensor within said conductive block close to said heater and between said heater and said second end; a second temperature sensor within said conductive block at a second position between said heater and said second end and close to said second end but further from said heater than said first temperature sensor.