Devices and methods for measuring natural source zone depletion rates

What is claimed is: 1. A system for monitoring subsurface conditions, the system comprising: a first thermal sensor in communication with a data logger, the first thermal sensor transmitting, to the data logger, at least one obtained temperature at a first subsurface location; a second thermal sensor in communication with the data logger, the second thermal sensor transmitting, to the data logger, at least one obtained temperature at a second subsurface location; and a computing device in communication with the data logger, the computing device comprising at least one hardware processor and at least one memory to store executable instructions that, when executed by the at least one processor, are configured to: estimate a planar location of a subsurface heating or cooling source produced by an endothermic reaction or an exothermic reaction of organic; material within a subsurface formation; calculate, utilizing the least one obtained temperature at the first subsurface location, the least one obtained temperature at the second subsurface location, and the estimated planar location of the subsurface heating or cooling source, a first thermal parameter corresponding to an estimated rate of thermal change of a surface heating or cooling source and a second thermal parameter corresponding to an estimated rate of thermal change of the subsurface heating or cooling source at the estimated planar location of the subsurface heating or cooling source; calculate, utilizing the first thermal parameter, the second thermal parameter, and the estimated planar location of the subsurface heating or cooling source, an estimated temperature distribution within the subsurface formation corresponding to a rate of change of an amount of the organic material within the subsurface formation; and initiate a site remedy action for remediation of the subsurface formation based on the rate of change of the amount of the organic material within the subsurface formation. 2. The system of claim 1 wherein the second subsurface location is aligned vertically with the first subsurface location. 3. The system of claim 2 further comprising: a plurality of additional thermal sensors, each of the plurality of additional thermal sensors in communication with the data logger and to obtain at least one temperature at a corresponding subsurface location. 4. The system of claim 3 further comprising: a vertical structure supporting the first thermal sensor, second thermal sensor, and the plurality of additional thermal sensors in a vertical arrangement in the subsurface formation. 5. The system of claim 1 , wherein the executable instructions are further configured to: calculate, utilizing the least one obtained temperature at the first subsurface location, the least one obtained temperature at the second subsurface location, and the estimated planar location of the subsurface heating or cooling source, an expected temperature distribution within the subsurface formation. 6. The system of claim 5 , wherein the executable instructions are further configured to: obtain a set of obtained temperatures from the plurality of additional thermal sensors; and correlate each of the set of obtained temperatures to a corresponding subsurface location. 7. The system of claim 6 , wherein the executable instructions are further configured to: compare the set of obtained temperatures to the expected temperature distribution within the subsurface formation; and generate, based on the comparison, a comparison value comprising a calculated difference between the set of obtained temperatures and the expected temperature distribution. 8. The system of claim 7 , wherein the executable instructions are further configured to: adjust, in response to the comparison value exceeding an allowable tolerance value, the estimated planar location of the subsurface heating or cooling source. 9. The system of claim 1 , wherein the computing device further comprises a display device, the executable instructions further configured to: display on the display device a visual representation of the rate of change of the amount of the organic material. 10. The system of claim 9 , wherein the visual representation of the rate of change of the amount of the organic material comprises a rate of change of the amount of the organic material over a period of time. 11. The system of claim 1 , wherein the site remedy action for remediation of the subsurface formation comprises removing an amount of the organic material within the subsurface formation. 12. A method for monitoring subsurface conditions, the method comprising: obtaining, from a first thermal sensor at a first subsurface location, a first temperature measurement and, from a second thermal sensor at a second subsurface location vertically aligned with the first subsurface location in a single data collection location, a second temperature measurement; estimating, via a processor of a computing device executing one or more instructions, a planar location of a subsurface heating or cooling source produced by an endothermic reaction or an exothermic reaction of organic material within a subsurface formation; calculating, via the processor executing the one or more instructions and without correcting for background temperature, a first thermal parameter corresponding to an estimated rate of thermal change of a surface heating or cooling source and a second thermal parameter corresponding to an estimated rate of thermal change due to the subsurface heating or cooling source at the estimated planar location of the subsurface heating or cooling source, the first thermal parameter and the second thermal parameter based on the obtained first temperature and the obtained second temperature; calculating, via the processor executing the one or more instructions and utilizing the first thermal parameter, the second thermal parameter, and the estimated planar location of the subsurface hearing or cooling source, an estimated temperature distribution within the subsurface formation corresponding to a rate of change of an amount of the organic material within the subsurface formation; and initiating a site remedy action for remediation of the subsurface formation based on the rate of change of the amount of the organic material within the subsurface formation. 13. The method of claim 12 further comprising: obtaining, from a plurality of additional thermal sensors, a plurality of additional temperature measurements, each additional temperature measurement corresponding to a separate subsurface location between the first subsurface location and the second subsurface location in the single data collection location. 14. The method of claim 13 further comprising: storing, in a database in communication with the computing device, the plurality of additional temperature measurements and the corresponding separate subsurface location. 15. The method of claim 14 further comprising: calculating, via the processor executing the one or more instructions and utilizing the obtained first temperature, the obtained second temperature, and the estimated planar location of the subsurface heating or cooling source, an expected distribution of temperature within the subsurface formation provided by the surface heating or cooling source and the subsurface heating or cooling source. 16. The method of claim 15 further comprising: comparing, via the processor executing the one or more instructions, the plurality of additional temperature measurements to the expected distribution of temperature within the subsurface formation; and