Automatic monitoring of smelt flow exiting a recovery boiler

The invention claimed is: 1. A method for automatic monitoring of a smelt flow exiting a recovery boiler, the method comprising: reading, with a processor, at least one stationarily imaged video sequence of digital image frames, each of the digital image frames includes at least one area under examination representing at least part of the smelt flow exiting the recovery boiler; identifying, with the processor, in the at least one area under examination, at least one area distinguishable based on color and/or intensity in the digital image frames; and determining, based on the at least one distinguishable area identified with the processor, at least one monitored flow property of the smelt flow, wherein the at least one distinguishable area includes a first distinguishable area under examination, wherein the first distinguishable area under examination represents the smelt flow flowing in a smelt spout with known cross-sectional dimensions, the first distinguishable area comprises an edge of a surface of the smelt flow, and wherein the monitored flow property comprises at least one of: smelt flow width and smelt flow height, wherein the smelt flow height is relative to a bottom of the smelt spout, and the smelt flow width and/or the smelt flow height are determined with the processor based on the edge of the surface of the smelt flow in the first distinguishable area. 2. The method according to claim 1 , wherein the monitored flow property further comprises a cross-sectional surface area of the smelt flow determined with the processor based on the known cross-sectional dimensions of the smelt spout and the smelt flow width and/or the smelt flow height. 3. The method according to claim 1 , wherein the width and/or the height of the smelt flow are determined based on pixel-numbered dimensions of the first area under examination. 4. The method according to claim 1 , further comprising: controlling the recovery boiler using the at least one monitored flow property of the smelt flow. 5. A method for automatic monitoring of a smelt flow exiting a recovery boiler, the method performed with at least one processor wherein the method includes: capturing stationary imaged video sequence of digital image frames generated by at least one camera positioned to image the smelt flow moving through a smelt spout attached to the recovery boiler and/or from the smelt spout; reading the stationarily imaged video sequence of digital image frames, each of the digital image frames represents at least part of the smelt flow flowing through the smelt spout or flowing from the smelt spout; identifying, in the digital image frames, a first area of the images of the smelt flow that is distinguishable from other areas in the digital image frames based on color and/or intensity in the digital image frames; wherein the first area comprises an area of the smelt flow moving in a flow direction of the smelt flow, and determining a monitored flow property of the smelt flow based on a change in a location of the first area between at least two of the digital image frames of the stationarily imaged video sequence. 6. The method according to claim 5 , wherein the monitored flow property further comprises a volume flow of the smelt flow, which is determined based on a cross-sectional surface area of the smelt flow and the flow rate of the smelt flow. 7. The method according to claim 6 , wherein the monitored flow property further comprises a mass flow of the smelt flow, determined with the processor, based on a density of the smelt flow and the volume flow. 8. The method according to claim 5 , wherein the second area under examination represents the smelt flow flowing out of the smelt spout, and the method further comprises directing a steam jet against the smelt flow to shatter the smelt flow into droplets, wherein the at least one distinguishable area includes a third distinguishable area under examination that comprises at least some of said droplets, and wherein the monitored flow property further comprises a droplet distribution property of said at least some of the droplets. 9. The method according to claim 5 , wherein the camera is a first camera and the method includes a second camera; wherein the first camera is at a first position relative to the smelt spout and positioned to capture a first video sequence of the at least one stationarily imaged video sequence and the second camera is at a second position relative to the smelt spout, different from the first position and is positioned to capture a second video sequence of the at least one stationary imaged video sequence, and the method further comprises: determining, using the processor, a first value of the first video sequence; determining, using the processor, a second value of the second video sequence; and comparing, using the processor, the first value and the second value. 10. The method of claim 5 , wherein the area of the smelt flow moving in the flow direction comprises an area distinguishable due to a deviation in a shape, composition and/or temperature of the smelt flow. 11. The method according to claim 5 , further comprising: controlling the recovery boiler using the at least one monitored flow property of the smelt flow.