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A car wash liquid containment and measurement apparatus having a reservoir defining a first interior region configured to hold a liquid therein. The apparatus has a valve with a first position and a second position and the valve is coupled to the reservoir. There is also a measurement apparatus coup

A car wash liquid containment and measurement apparatus having a reservoir defining a first interior region configured to hold a liquid therein. The apparatus has a valve with a first position and a second position and the valve is coupled to the reservoir. There is also a measurement apparatus coupled to the valve defining a second interior region and a tube disposed at least partially within the second interior region of the measurement apparatus. The valve fluidly isolates the first interior region from the second interior region when the valve is in the first position and the valve fluidly couples the first interior region with the second interior region when the valve is in the second position.

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1. A liquid measurement and containment apparatus, comprising: a reservoir having a plurality of side walls, a bottom surface, a top surface, and defining a first interior region configured to hold a liquid therein;a cavity defined in a portion of the top surface;an orifice defined in the cavity pro

1. A liquid measurement and containment apparatus, comprising: a reservoir having a plurality of side walls, a bottom surface, a top surface, and defining a first interior region configured to hold a liquid therein;a cavity defined in a portion of the top surface;an orifice defined in the cavity providing access into the first interior region;a valve having a first position and a second position, the valve coupled to the reservoir on one of the plurality of side walls proximate to the bottom surface;a measurement apparatus extending from a top portion to a bottom portion, coupled to the valve, and defining a second interior region;a tube extending through the top portion and disposed at least partially within the second interior region of the measurement apparatus; andan intake end of the tube positioned proximate to the bottom portion;wherein the valve fluidly isolates the first interior region from the second interior region when the valve is in the first position;further wherein the valve fluidly couples the first interior region with the second interior region when the valve is in the second position;further wherein, when the valve is in the second position, liquid travels from the first interior region to the second interior region before being withdrawn through the intake end of the tube;further wherein, the cavity corresponds in size with a container and is adapted to receive the container partially within the cavity where a portion of the container is within the orifice to transfer liquid from the container to the interior region. 2. The liquid measurement and containment apparatus of claim 1, further comprising: a first plurality of markings that correlate a first liquid level with a first liquid volume; anda second plurality of markings that correlate a second liquid level with a second liquid volume;wherein the location of the first liquid level along the first plurality of markings is indicative of the volume of liquid located within the reservoir and the location of the second liquid level along the second plurality of markings is indicative of the volume of liquid located within the second interior region. 3. The liquid measurement and containment apparatus of claim 2, wherein the first plurality of markings and the second plurality of markings are on the reservoir. 4. The liquid measurement and containment apparatus of claim 2, wherein the first plurality of markings and the second plurality of markings are on the measurement apparatus. 5. The liquid measurement and containment apparatus of claim 1, wherein the liquid disposed in the second interior region of the measurement apparatus is selectively removable through the top portion via the tube. 6. The liquid measurement and containment apparatus of claim 5, wherein when the valve is in the first position, the tube only withdraws liquid located in the second interior region; further wherein, the tube only withdraws liquid located in the second interior region when the valve is in the second position, wherein liquid from the first interior region enters the second interior region as the tube withdraws liquid. 7. The liquid measurement and containment apparatus of claim 1, further comprising a door removeably coupled to the reservoir, wherein the door is removable from the reservoir to allow access to the first interior region. 8. An assembly for monitoring the volume of liquid used in a system, comprising: a machine that uses at least one fluid;a liquid measurement and containment apparatus, comprising: a reservoir having a plurality of side walls, a bottom surface, a top surface and defining a first interior region configured to hold a liquid therein;a cavity defined in a portion of the top surface;an orifice defined in the cavity providing access into the first interior region;a valve having a first position and a second position, the valve coupled to the reservoir on one of the plurality of side walls proximate to the bottom surface;a measurement apparatus extending from a top portion to a bottom portion coupled to the valve and defining a second interior region;a tube extending through the top portion and disposed at least partially within the second interior region of the measurement apparatus; andan intake end of the tube positioned proximate to the bottom portion;wherein the valve fluidly isolates the first interior region from the second interior region when the valve is in the first position;wherein the valve fluidly couples the first interior region with the second interior region when the valve is in the second position;further wherein, when the valve is in the second position, liquid travels from the first interior region to the second interior region before being withdrawn through the intake end of the tube;further wherein, the cavity corresponds in size with a container and is adapted to receive the container partially within the cavity where a portion of the container is within the orifice to transfer liquid from the container to the interior region;wherein the tube fluidly couples the machine to the liquid measurement and containment apparatus. 9. The assembly of claim 8, further wherein the machine is configured to operate in one or more cycles and to discharge a predetermined volume of liquid in each cycle. 10. The assembly of claim 9, further comprising a plurality of markings disposed on the liquid measurement and containment apparatus. 11. The assembly of claim 10, wherein when the valve is in the first position, the plurality of markings indicate a volume of the liquid located in the measurement apparatus. 12. The assembly of claim 10, wherein when the valve is in the second position, the plurality of markings indicate a volume of the liquid located in the reservoir. 13. The assembly of claim 10, wherein the plurality of markings indicate both a volume of liquid located in the measurement apparatus and a volume of liquid located in the reservoir. 14. The assembly of claim 10, wherein the plurality of markings are configured to be monitored during the cycle to indicate a volume of liquid used by the machine. 15. A method of determining the liquid consumption of a machine, comprising: providing a liquid measurement and containment apparatus, comprising: a reservoir having a plurality of side walls, a bottom surface, a top surface, and defining a first interior region configured to hold a liquid therein;a cavity defined in a portion of the top surface;an orifice defined in the cavity providing access into the first interior region;a valve having a first position and a second position, the valve coupled to the reservoir on one of the plurality of side walls proximate to the bottom surface;a measurement apparatus extending from a top portion to a bottom portion coupled to the valve and defining a second interior region;a tube extending through the top portion and disposed at least partially within the second interior region of the measurement apparatus; andan intake end of the tube positioned proximate to the bottom portion;wherein the valve fluidly isolates the first interior region from the second interior region when the valve is in the first position;further wherein the valve fluidly couples the first interior region with the second interior region when the valve is in the second position;further wherein, when the valve is in the second position, liquid travels from the first interior region to the second interior region before being withdrawn through the intake end of the tube;further wherein, the cavity corresponds in size with a container and is adapted to receive the container partially within the cavity where a portion of the container is within the orifice to transfer liquid from the container to the interior region;providing a machine that uses at least one liquid during a machine operation;fluidly coupling the machine to the measurement apparatus with the tube;placing the container partially within the cavity and aligned with the orifice;filling the reservoir through the orifice with a volume of a liquid from the container;transitioning the valve to the second position to allow the liquid to enter the measurement apparatus;transitioning the valve to the first position after at least some of the liquid has entered the measurement apparatus;recording a first liquid height in the measurement apparatus;operating the machine for a period of time;recording a second liquid height of the measurement apparatus;comparing the first liquid height to the second liquid height to determine the amount of liquid used by the machine during the machine operation. 16. The method of claim 15, wherein the recording a first liquid height step is done by comparing the first liquid height to a plurality of markings and the recording a second liquid height step includes comparing the second liquid height to the plurality of markings. 17. The method of claim 16, wherein the plurality of markings indicate a first liquid volume in the measurement apparatus for the first liquid height and the plurality of markings indicate a second liquid volume for the second liquid height. 18. The method of claim 17, further comprising: designating the first liquid volume with the plurality of markings; anddesignating the second liquid volume with the plurality of markings;wherein, a total volume of liquid used during a machine operation is calculated by subtracting the first liquid volume from the second liquid volume. 19. The method of claim 18, further comprising: operating the machine for one or more cycles;determining a volume of liquid used in each cycle by dividing the total volume of liquid used by the number of cycles for which the machine was operated. 20. The method of claim 15, further comprising: providing a liquid level sensor in the measurement apparatus, a processor of a controller, and a display;transmitting, with the liquid level sensor, the liquid level of the measurement apparatus to the processor;controlling, with the processor, the operating the machine step, the recording the first liquid height step, and the recording the second liquid height step;correlating, with the processor, the first liquid height to a first volume and the second liquid height to a second volume;determining, with the processor, a volume difference between the first volume and the second volume and communicating the volume difference with the display.