REMOTE VEHICLE EMISSIONS SENSING SYSTEM AND METHOD FOR DIFFERENTIATING WATER FROM HYDROCARBONS

1. A system configured to detect the presence of water droplets in vehicle emissions present in an optical path of a remote emissions sensing system, wherein the remote emissions sensing system includes an electromagnetic radiation source and a detector arranged to form the optical path such that the optical path traverses a roadway along which a vehicle travels, the system comprising:

• one or more processors configured to execute computer program modules, the computer program modules comprising;
  
  (i) a quantity module configured to obtain determinations of quantities of a plurality of molecular species present in an exhaust plume emitted by the vehicle,wherein the determined quantities of the plurality of molecular species have been determined based on output signals generated by the detector conveying information related to intensities of electromagnetic radiation received at the detector from the source in a plurality of absorption wavelengths that correspond to the plurality of molecular species,wherein the plurality of molecular species comprises carbon monoxide, hydrocarbons, and carbon dioxide, andwherein the plurality of absorption wavelengths comprises a first absorption wavelength that corresponds to carbon monoxide, a second absorption wavelength that corresponds to hydrocarbons, and a third absorption wavelength that corresponds to carbon dioxide;
  
  (ii) a residual module configured to determine an impact on determinations of the quantity of carbon monoxide caused by blockage of electromagnetic radiation at the first absorption wavelength by water droplets, wherein the residual module is configured to determine an impact on determinations of the quantity of carbon monoxide caused by blockage of electromagnetic radiation at the first absorption wavelength by water droplets by;
  
  determining the quantity of carbon monoxide as a function of the detected quantity of carbon dioxide; and
  
  subtracting the quantity of carbon monoxide determined as a function of detected carbon dioxide from the obtained measurement of the quantity of carbon monoxide; and
  
  (iii) a water analysis module configured to detect the presence of water droplets in the optical path based on a Comparative analysis of the obtained quantities of hydrocarbons and the determined impact on determinations of the quantity of carbon monoxide caused by blockage of electromagnetic radiation at the first absorption wavelength by water droplets.