Systems and methods for authenticating working fluids

The invention claimed is: 1. A method for in-situ authentication of a working fluid containing a UV-reactive chemical marker, the method comprising: introducing the working fluid into a mechanical system wherein the working fluid is selected from a group consisting of a lubricant, an oil, a coolant, an hydraulic fluid, a fuel and an oil field chemical; exposing at least a portion of the working fluid to a light having wavelengths in a range of about 10-400 nm, thereby causing the chemical marker to generate a signal; detecting the chemical marker signal via a sensor system disposed on or within the mechanical system; and comparing the signal generated by the chemical marker to a reference signal that is associated with an authentic working fluid; further comprising generating an output indicating whether the working fluid is the authentic working fluid wherein the chemical marker is a quinone and the signal generated by the chemical marker is fluorescence. 2. A method for in-situ authentication of a working fluid containing a UV-reactive chemical marker, the method comprising: introducing the working fluid into a mechanical system wherein the working fluid is selected from a group consisting of a lubricant, an oil, a coolant, an hydraulic fluid, a fuel and an oil field chemical; exposing at least a portion of the working fluid to a light having wavelengths in a range of about 10-400 nm, thereby causing the chemical marker to generate a signal; detecting the chemical marker signal via a sensor system disposed on or within the mechanical system; and comparing the signal generated by the chemical marker to a reference signal that is associated with an authentic working fluid wherein the signal generated by the chemical marker is a RGB color value. 3. The method of claim 2 , wherein the chemical marker is selected from a group consisting of a dye, a colorant, a polyaromatic hydrocarbon, asphaltene, quinone, detergent, ionic liquid, metallic nanoparticle, semi-conductor nanoparticle, fluorescent compound, enzyme, DNA, RNA, polypeptide, redox-active organometallic complex and array of molecules with unique molecular weight distributions. 4. A system for determining whether a working fluid containing a UV-reactive chemical marker is an authentic working fluid, the system comprising: a control instrument having a reference signal that corresponds to the authentic working fluid; a sensor operable for receiving a signal that is generated from the chemical marker in the working fluid upon exposure to UV light, wherein the sensor is communicatively connected to the control instrument wherein the working fluid is selected from a group consisting of a lubricant, an oil, a hydraulic fluid, a fuel and an oil field chemical, wherein the control instrument is operable for receiving the signal from the sensor and comparing the reference signal to the working fluid signal and generating an output to indicate whether the working fluid is the authentic working fluid wherein the chemical marker is selected from a group consisting of a dye, a colorant, a polyaromatic hydrocarbon, asphaltene, quinone, detergent, ionic liquid, metallic nanoparticle, semi-conductor nanoparticle, fluorescent compound, enzyme, DNA, RNA, polypeptide, redox-active organometallic complex and array of molecules with unique molecular weight distributions and wherein the signal generated by the chemical marker in the working fluid is a RGB color value. 5. A system for determining whether a working fluid containing a UV-reactive chemical marker is an authentic working fluid, the system comprising: a control instrument having a reference signal that corresponds to the authentic working fluid; a sensor operable for receiving a signal that is generated from the chemical marker in the working fluid upon exposure to UV light, wherein the sensor is communicatively connected to the control instrument wherein the working fluid is selected from a group consisting of a lubricant, an oil, a hydraulic fluid, a fuel and an oil field chemical, wherein the control instrument is operable for receiving the signal from the sensor and comparing the reference signal to the working fluid signal and generating an output to indicate whether the working fluid is the authentic working fluid wherein the chemical marker is a quinone and the signal generated by the chemical marker is fluorescence.