Maintenance self-diagnosis and guide for a self-contained wastewater treatment system

What is claimed is: 1. A self-diagnostic maintenance system for a self-contained wastewater treatment system, comprising: a plurality of sensors mounted on the self-contained wastewater treatment system, each of the plurality of sensors associated with a component of the wastewater treatment system; a data logger configured to gather data from the plurality of sensors; a controller, operatively coupled to the data logger; a memory operatively coupled to the controller; a software application, stored in the memory and executable by the controller, having: a plurality of hierarchically-organized sensor object classes, including a sensor object superclass that defines variables and methods common to all of the sensors, one or more communication protocol object subclasses each of the communication protocol object subclasses further defining variables and methods to communicate with one or more of the sensors using a predetermined communication protocol, one or more individual sensor object subclasses each of the individual sensor object subclasses further defining variables and methods to communicate with an individual sensor of the sensors, wherein the variables are unique to the individual sensor and are not common to other sensors in the system that use the same communication protocol as the individual sensor; and a failure detection object class that defines one or more methods to analyze data from the sensors to determine whether a failure mode exists in the system; a communication interface operatively coupled to the controller; a plurality of threshold values corresponding to each of the sensors stored in the memory for use by the software application in determining modes of system failure; wherein the software application, when executed by the controller, configures the controller to: upload the sensor data from the data logger; time stamp the uploaded sensor data; generate a data object consisting of the uploaded sensor data, time stamps and names recorded in a data structure; perform one or more arithmetic operations on the uploaded sensor data to produce resultant data; compare the resultant data against the plurality of corresponding threshold values to create a Boolean array of values, wherein each of the values in the Boolean array is associated with one of the sensors and indicates whether or not a failure mode of the self-contained wastewater treatment system has occurred, wherein each failure mode is associated with failure of one of the components of the wastewater treatment systems; wherein the communication interface is configured to send a message through a communication network to alert a maintenance operator of the failure model and wherein the system is configured to provide the maintenance operator with instructions for replacing or repairing the component of the wastewater treatment system that is associated with the failure mode, either by using an on-site display or by the message sent through the communication network. 2. The maintenance system of claim 1 , wherein the controller is further configured to: select which message to send to the maintenance operator based on one or more false values appearing in the Boolean array. 3. The maintenance system of claim 1 , further comprising a server configured to receive information from the communication interface and route the message to the maintenance operator. 4. The maintenance system of claim 3 , wherein the server comprises: a database of information regarding a plurality of maintenance operators; and means for selecting one of the maintenance operators to be a recipient of the message, based on information stored in the database. 5. The maintenance system of claim 3 , wherein the server comprises: a database of information regarding a plurality of self-contained wastewater treatment systems; and means for communicating with the self-contained wastewater treatment systems. 6. The maintenance system of claim 1 , further comprising the sensors, wherein at least one of the sensors is selected from the group consisting of: a leak sensor, a water level sensor, a fluid pressure sensor, a turbidity sensor, a clarity sensor, a pH sensor, an oxygen sensor, an air quality sensor, a specific gas sensor, a magnetic sensor, an oxidation/reduction potential sensor, a chlorine sensor, a voltage sensor, a current sensor, light sensor, a single wavelength light sensor, and any suitable combination of the foregoing. 7. The maintenance system of claim 1 , further comprising: a memory storing instructional repair images. 8. The maintenance system of claim 1 , further comprising a display configured to display repair instructions to the maintenance operator. 9. The maintenance system of claim 1 , wherein the maintenance system is located at the self-contained wastewater treatment system. 10. The maintenance system of claim 1 , wherein the controller is further configured to: identify the sensors; create a list of the identified sensors; and define one or more failure modes of the self-contained wastewater treatment system based on the list of identified sensors. 11. A method of maintaining a self-contained wastewater treatment system larking a connection to a municipal wastewater treatment system, comprising: gathering data, with a data logger. from a plurality of electrical and/or mechanical sensors mounted on the self-contained wastewater treatment system; uploading the data from the data logger to a computer; executing, on the computer, a software application having; a plurality of hierarchically-organized sensor object classes, including a sensor object superclass that defines variables and methods common to all of the sensors, one or more communication protocol object subclasses, each of the communication protocol object subclasses further defining variables and methods to communicate with one or more of the sensors using a predetermined communication protocol, one or more individual sensor object subclasses, each of the individual sensor object subclasses further defining variables and methods to communicate with an individual sensor of the sensors, wherein the variables are unique to the individual sensor and are not common to other sensors in the system that use the same communication protocol as the individual sensor; and a failure detection object class that defines methods to analyze data from the sensors to determine whether a failure mode exists in the system; the software application causing the computer to perform: time stamping the uploaded data; generating a data object consisting of the uploaded, time-stamped data; performing one or more arithmetic operations on the uploaded data to produce resultant data; and comparing the resultant data of the data object against a plurality of threshold values to create a Boolean array of values, wherein each of the values in the Boolean array is associated with one of the sensors, wherein if the resultant data falls above or below the threshold values then a failure mode has occurred; identifying a repair instruction associated with the failure mode; and sending a message through a wireless communication network to alert a maintenance operator of the failure mode and display the repair instructions to the maintenance operator. 12. The method of claim 11 , further comprising: selecting which message to send to the maintenance operator based on one or more false values appearing in the Boolean array. 13. The method of claim 11 , wherein the message includes the location of the wastewater system. 14. The method of claim 11 , further comprising: identifying at least