Plume estimation using correlation measurements at isolated spatial points

The invention claimed is: 1. A method for estimating a spatial width w of a gas plume, the method comprising: performing multiple gas concentration measurements at two or more separated measurement points, wherein each data point is a simultaneous concentration measurement at the measurement points; providing a time-independent gas plume model having at least the spatial width w as a fitting parameter, wherein the gas plume model also includes parameters for plume position; and fitting the gas plume model to the data points, wherein the plume position is allowed to be a random variable to enable fitting to observed scatter in the data points, and wherein an estimate w* of the plume spatial width w is provided as an output; wherein the method does not depend on a distance between the measurement points and the gas source. 2. A method for estimating widths w y and w z of a gas plume, the method comprising: performing the method of claim 1 in two orthogonal directions y and z; wherein all measurement points are in a common measurement plane. 3. The method of claim 2 , wherein the measurement points include three points having y-z coordinates (0,0), (d y ,0), (0,d z ). 4. A method for estimating total emission from a gas source, the method comprising: performing the method of claim 2 to determine widths w y and w z ; measuring an average wind speed v x in a direction perpendicular to the measurement plane; and estimating total plume emission using the data points and a plume emission model that includes at least v x , w y and w z as parameters. 5. The method of claim 4 , wherein the total plume emission estimate is completely determined by fitting parameters of the gas plume model and v x . 6. The method of claim 2 , wherein measurements relating to the two orthogonal directions are performed simultaneously. 7. The method of claim 2 , wherein measurements relating to the two orthogonal directions are performed sequentially and then registered to a common time axis to provide the simultaneous concentration measurement at the measurement points.