Additive system for a concrete mixer truck

What is claimed is: 1. A concrete mixer vehicle comprising: a mixer drum comprising an inner volume configured to hold a mixture for transportation and placement; an additive admixture system comprising: an air inlet valve; a fluid valve; an air valve; and a pump; wherein an outlet of the fluid valve is fluidly coupled with an intermediate tubular member; wherein an outlet of the air valve is fluidly coupled with the intermediate tubular member at a position upstream of an inlet of the pump, the air valve configured to receive compressed air from a compressed air system; wherein the air inlet valve is fluidly coupled with the intermediate tubular member and atmospheric pressure; and wherein an outlet of the intermediate tubular member is fluidly coupled with the inlet of the pump; and a controller configured to operate the air inlet valve, the fluid valve, the air valve, and the pump of the additive admixture system to transition the additive admixture system between an additive addition mode, a drain mode, and a system clear mode. 2. The concrete mixer vehicle of claim 1 , wherein the additive admixture system further comprises: a first inlet line fluidly coupled with the fluid valve and a tank configured to store an additive; a second inlet line fluidly coupled with the air valve and the compressed air system configured to provide compressed air to the additive admixture system when the air valve is opened; a check valve positioned downstream of the pump; and a flow meter positioned downstream of the pump. 3. The concrete mixer vehicle of claim 2 , wherein the flow meter is configured to measure any of: an amount of the additive discharged by the pump; a speed of the additive discharged by the pump; a volumetric flow rate of the additive discharged by the pump; or a mass flow rate of the additive discharged by the pump. 4. The concrete mixer vehicle of claim 1 , wherein the controller is configured to: transition the additive admixture system into the additive addition mode and operate the pump until a desired amount of an additive is added to the mixer drum; transition the additive admixture system into the drain mode for a first predetermined amount of time in response to the desired amount of additive being added to the mixer drum; and transition the additive admixture system into the system clear mode for a second predetermined amount of time to clear stagnant fluid or built up mixture from the additive admixture system. 5. The concrete mixer vehicle of claim 1 , wherein transitioning the additive admixture system into the additive addition mode comprises: transitioning the fluid valve into an open position; transitioning the air valve into a closed position; and transitioning the air inlet valve into a closed position. 6. The concrete mixer vehicle of claim 1 , wherein transitioning the additive admixture system into the drain mode comprises: transitioning the air inlet valve into an open position. 7. The concrete mixer vehicle of claim 1 , wherein transitioning the additive admixture system into the system clear mode comprises: transitioning the fluid valve into a closed position; and transitioning the air valve into an open position. 8. The concrete mixer vehicle of claim 1 , wherein fluid in the additive admixture system that is upstream of a check valve drains into a tank of the additive admixture system and fluid in the additive admixture system that is downstream of the check valve drains into the mixer drum, when the additive admixture system is in the drain mode. 9. An additive admixture system for a mixer drum, comprising: an air inlet valve fluidly coupled with an intermediate tubular member and configured to receive compressed air from a compressed air system; a fluid valve; an air valve; a pump fluidly coupled with an additive tank through the intermediate tubular member, the pump fluidly coupled with the intermediate tubular member at a location downstream of a fluid coupling point of the air inlet valve, wherein an outlet of the air valve is fluidly coupled with the intermediate tubular member at a position upstream of an inlet of the pump; and a controller configured to operate the air inlet valve, the fluid valve, the air valve, and the pump of the additive admixture system to transition the additive admixture system between an additive addition mode, a drain mode, and a system clear mode, wherein the controller is configured to: transition the additive admixture system into the additive addition mode and operate the pump until a desired amount of an additive is added to the mixer drum; transition the additive admixture system into the drain mode for a first predetermined amount of time in response to the desired amount of additive being added to the mixer drum; and transition the additive admixture system into the system clear mode for a second predetermined amount of time to clear stagnant fluid or built up mixture from the additive admixture system. 10. The additive admixture system of claim 9 , wherein the additive admixture system further comprises: a first inlet line fluidly coupled with the fluid valve and a tank configured to store the additive; a second inlet line fluidly coupled with the air valve and the compressed air system configured to provide compressed air to the additive admixture system when the air valve is opened; a check valve positioned downstream of the pump; and a flow meter positioned downstream of the pump. 11. The additive admixture system of claim 10 , wherein the flow meter is configured to measure any of: an amount of the additive discharged by the pump; a speed of the additive discharged by the pump; a volumetric flow rate of the additive discharged by the pump; or a mass flow rate of the additive discharged by the pump. 12. The additive admixture system of claim 10 , wherein: an outlet of the fluid valve is fluidly coupled with the intermediate tubular member; the air inlet valve is fluidly coupled with atmospheric pressure; and an outlet of the intermediate tubular member is fluidly coupled with the inlet of the pump. 13. The additive admixture system of claim 9 , wherein transitioning the additive admixture system into the additive addition mode comprises: transitioning the fluid valve into an open position; transitioning the air valve into a closed position; and transitioning the air inlet valve into a closed position. 14. The additive admixture system of claim 9 , wherein transitioning the additive admixture system into the drain mode comprises: transitioning the air inlet valve into an open position. 15. The additive admixture system of claim 9 , wherein transitioning the additive admixture system into the system clear mode comprises: transitioning the fluid valve into a closed position; and transitioning the air valve into an open position. 16. The additive admixture system of claim 9 , wherein fluid in the additive admixture system that is upstream of a check valve drains into a tank of the additive admixture system and fluid in the additive admixture system that is downstream of the check valve drains into the mixer drum, when the additive admixture system is in the drain mode. 17. A concrete mixer vehicle comprising: a mixer drum comprising an inner volume configured to hold a mixture for transportation and placement; an additive admixture system comprising a fluid valve, an air valve, an air inlet valve configured to vent to atmospheric pressure when opened, and a pump configured to receive admixture through an inlet from