Mounting system for a sensor in a ductwork

What is claimed is: 1. A mounting system for a laser detection sensor in a ductwork for the detection of unburnt fuel, the mounting system comprising: a laser transmitter mount configured to provide adjustment of a laser transmitter; a laser receiver mount configured to provide adjustment of a laser receiver; a laser path extending between the laser transmitter and the laser receiver, wherein the laser path includes an entrance port in the ductwork and an exit port in the ductwork; and a flexible joint in the mounting system, wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from movement of the ductwork; and wherein the flexible joint is a bellows expansion joint positioned between the laser transmitter and the laser receiver. 2. The mounting system recited in claim 1 , wherein the flexible joint is positioned adjacent the entrance port in the ductwork. 3. The mounting system recited in claim 1 , wherein the flexible joint is positioned adjacent the exit port in the ductwork. 4. The mounting system recited in claim 1 , wherein the flexible joint includes a first flexible joint positioned adjacent the entrance port in the ductwork, and a second flexible joint positioned adjacent the exit port in the ductwork. 5. The mounting system recited in claim 1 , further comprising a pipe with one or more openings, the pipe extending through the ductwork from a first end extending outwardly from the entrance port in the ductwork to a second end extending outwardly from the exit port in the ductwork. 6. The mounting system recited in claim 5 , wherein the flexible joint is positioned adjacent the first end of the pipe. 7. The mounting system recited in claim 5 , wherein the flexible joint is positioned adjacent the second end of the pipe. 8. The mounting system recited in claim 5 , wherein the flexible joint includes a first flexible joint positioned adjacent the entrance port in the ductwork, and a second flexible joint positioned adjacent the exit port in the ductwork. 9. The mounting system recited in claim 1 , wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from thermal expansion of the ductwork. 10. The mounting system recited in claim 1 , wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from movement, deflection, or distortion of the ductwork caused by vibration, fluid pressure, applied forces, or flow variations within the ductwork. 11. The mounting system of claim 1 , in combination with a ductwork. 12. The mounting system of claim 1 , in combination with a laser detection sensor which includes a laser transmitter and a laser receiver. 13. The mounting system recited in claim 1 , wherein at least one of the laser transmitter mount and the laser receiver mount are configured to provide angular adjustment of the respective laser transmitter or laser receiver. 14. The mounting system recited in claim 1 , wherein at least one of the laser transmitter mount and the laser receiver mount are configured to provide linear adjustment of the respective laser transmitter or laser receiver. 15. A mounting system in combination with a ductwork, wherein the mounting system is for a laser detection sensor in the ductwork for the detection of unburnt fuel, the mounting system comprising: a laser transmitter mount configured to provide adjustment of a laser transmitter; a laser receiver mount configured to provide adjustment of a laser receiver; a laser path extending between the laser transmitter and the laser receiver, wherein the laser path includes an entrance port in the ductwork and an exit port in the ductwork; and a flexible joint in the mounting system, wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from movement of the ductwork; wherein the walls of the ductwork are made of a stainless steel alloy or carbon steel alloy, wherein a thermal expansion coefficient of the ductwork walls ranges from about 5.5×10 −6 inch/inch-F to about 9.6×10 −6 inch/inch-F. 16. A mounting system in combination with a ductwork, wherein the mounting system is for a laser detection sensor in the ductwork for the detection of unburnt fuel, the mounting system comprising: a laser transmitter mount configured to provide adjustment of a laser transmitter; a laser receiver mount configured to provide adjustment of a laser receiver; a laser path extending between the laser transmitter and the laser receiver, wherein the laser path includes an entrance port in the ductwork and an exit port in the ductwork; and a flexible joint in the mounting system, wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from movement of the ductwork; wherein the ductwork is configured to receive gases flowing therethrough, the gases having a temperature ranging from ambient temperatures to about 900° F. 17. A system for detecting unburnt fuel in an apparatus for drying, bonding and/or curing a web, the system comprising: a ductwork; a laser detection sensor including a laser transmitter and a laser receiver, the laser detection sensor configured to detect unburnt fuel inside of the ductwork; and a system for mounting the laser detection sensor in the ductwork, the mounting system further comprising: a laser transmitter mount configured to support the laser transmitter on a first side of the ductwork; a laser receiver mount configured to support the laser receiver on a second side of the ductwork; a laser path extending between the laser transmitter and the laser receiver, wherein the laser path includes an entrance port in the ductwork and an exit port in the ductwork; and a flexible joint in the mounting system, wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from movement of the ductwork; and wherein the flexible joint is a bellows expansion joint positioned between the laser transmitter and the laser receiver. 18. The mounting system recited in claim 17 , wherein the flexible joint is positioned adjacent the entrance port in the ductwork. 19. The mounting system recited in claim 17 , wherein the flexible joint is positioned adjacent the exit port in the ductwork. 20. The mounting system recited in claim 17 , wherein the flexible joint includes a first flexible joint positioned adjacent the entrance port in the ductwork, and a second flexible joint positioned adjacent the exit port in the ductwork. 21. The mounting system recited in claim 17 , further comprising a pipe with one or more openings, the pipe extending through the ductwork from a first end extending outwardly from the entrance port in the ductwork to a second end extending outwardly from the exit port in the ductwork. 22. The mounting system recited in claim 21 , wherein the flexible joint is positioned adjacent the first end of the pipe. 23. The mounting system recited in claim 21 , wherein the flexible joint is positioned adjacent the second end of the pipe. 24. The mounting system recited in claim 17 , wherein the flexible joint is configured to isolate at least one of the laser transmitter and the laser receiver from thermal expansion of the ductwork. 25. The mounting system recited in claim 17 , wher