Gas analysis system and boiler

The invention claimed is: 1. A gas analysis system, comprising: a laser light source for emitting a laser light to be transmitted through an analysis target gas; a photodetector configured to receive the laser light transmitted through the analysis target gas, for outputting a signal corresponding to an emission intensity of the received laser light; a gas analysis apparatus for analyzing the analysis target gas on the basis of the signal outputted from the photodetector; a variable light attenuator disposed between the analysis target gas and the laser light source; a transmitted-light amount detector configured to evaluate a transmitted light amount of the laser light transmitted through the analysis target gas on the basis of the signal outputted from the photodetector; an attenuation amount controller configured to control an attenuation amount of the variable light attenuator on the basis of the transmitted light amount of the laser light evaluated by the transmitted-light amount detector; a vessel housing the laser light source, the photodetector, and the variable light attenuator, the vessel being filled with an inert gas; and an insertion measurement probe which is configured to be insertable into a measurement target site disposed outside the vessel, the insertion measurement probe including: a first optical fiber extending from the variable light attenuator inside the vessel to the measurement target site outside the vessel; a second optical fiber extending from the photodetector inside the vessel to the measurement target site outside the vessel; and an optical system disposed between an output surface of the first optical fiber and an input surface of the second optical fiber. 2. The gas analysis system according to claim 1 , wherein the photodetector is configured to output an output voltage in proportion to the emission intensity of the received laser light as the signal, and wherein the transmitted-light amount detector is configured to evaluate the transmitted light amount of the laser light transmitted through the analysis target gas on the basis of the output voltage outputted from the photodetector. 3. The gas analysis system according to claim 1 , wherein the attenuation amount controller is configured to increase the attenuation amount if an intensity of the laser light evaluated by the transmitted-light amount detector is greater than a threshold, and to reduce the attenuation amount if the intensity of the laser light is not greater than the threshold. 4. The gas analysis system according to claim 3 , wherein the threshold is set to a value which is at least 80% of a maximum output value of the photodetector. 5. The gas analysis system according to claim 1 , wherein the laser light source is disposed so that the laser light transmits through a combustion gas which serves as the analysis target gas, at an observation point disposed inside a furnace of a boiler. 6. The gas analysis system according to claim 5 , wherein the observation point is disposed between a burner of the boiler and an additional air supplying part, inside the furnace. 7. The gas analysis system according to claim 1 , wherein the gas analysis apparatus is configured to analyze an oxygen concentration, a carbon monoxide concentration, and a gas temperature of the combustion gas serving as the analysis target gas, at the observation point. 8. The gas analysis system according to claim 1 , further comprising: a light distributor, disposed between the laser light source and the variable light attenuator, for distributing a part of the laser light emitted from the laser light source; a reference cell which contains a predetermined amount of the analysis target gas and through which the part of the laser light distributed by the light distributor transmits; and a standard photo detector configured to receive the part of the laser light transmitted through the reference cell, for outputting a standard signal corresponding to an emission intensity of the part of the received laser light, wherein the gas analysis apparatus is configured to calibrate an analysis result of the analysis target gas on the basis of the standard signal outputted by the standard photo detector. 9. The gas analysis system according to claim 1 , configured to maintain an output amount of the laser source and a gain of the photodetector constant during gas analysis. 10. The gas analysis system according to claim 1 , wherein the insertion measurement probe has a measurement part disposed in a light path between the output surface of the first optical fiber from which the laser light is emitted and the input surface of the second optical fiber into which the laser light enters, and wherein the analysis target gas exists at the measurement part. 11. The gas analysis system according to claim 1 , further comprising a low-pass filter for removing a noise component, disposed between the photo detector and the transmitted-light amount detector. 12. A boiler, comprising: a furnace; a burner for combusting fuel in the furnace; and the gas analysis system according to claim 1 , configured to analyze a combustion gas in the furnace at a downstream side of the burner. 13. The boiler according to claim 12 , further comprising an additional air supplying part for supplying an additional combustion air into the furnace, at the downstream side of the burner, wherein the gas analysis system is configured to analyze the combustion gas at a position downstream of the burner and upstream of the additional air supplying part, inside the furnace.