Transfer pump and transfer pump accessory

The invention claimed is: 1. A transfer pump comprising: a housing defining an inlet and an outlet; a main pump path disposed between the inlet and the outlet; a bypass path disposed between the inlet and the outlet; a motor having an impeller in fluid communication with the main pump path, the motor being configured to be selectively energized to move a fluid through the main pump path and the bypass path, and the fluid movement while the motor is energized being indicative of a non-siphoning condition occurring between the inlet and the outlet; a flow sensor disposed in fluid communication with the bypass path, the flow sensor being configured to generate a flow rate signal indicative of a flow rate of fluid in the bypass path; and a controller in communication with the flow sensor for receiving the flow rate signal, the controller being configured to de-energize the motor when the flow rate signal satisfies a first flow rate threshold indicative of a siphoning condition occurring between the inlet and the outlet, the fluid flow passing through the bypass path while the controller determines the siphoning condition is occurring. 2. The transfer pump of claim 1 , further comprising an inlet connector and an outlet connector, at least one of which is configured to be coupled with a conduit. 3. The transfer pump of claim 1 , wherein the controller is configured to continuously monitor the flow rate signal during operation. 4. The transfer pump of claim 1 , wherein the flow sensor includes: a magnetic element, and a Hall Effect sensor in cooperation with the magnetic element, the Hall Effect sensor being configured to measure the flow rate of fluid in the bypass path. 5. The transfer pump of claim 4 , wherein: the flow sensor further includes a paddle wheel, and the paddle wheel includes the magnetic element. 6. The transfer pump of claim 1 , wherein the controller is further configured to energize the motor when the flow rate signal drops at or below a second flow rate threshold indicative of a non-siphoning condition. 7. The transfer pump of claim 1 , further comprising a one-way valve disposed in the bypass path to inhibit backflow. 8. The transfer pump of claim 1 , wherein the controller is further configured to disable the operation of the transfer pump when the flow rate signal drops at or below a second flow rate threshold and satisfies a time threshold indicative of a system disable mode condition being reached. 9. The transfer pump of claim 1 , wherein the controller is configured to fluctuate between energizing the motor and de-energizing the motor when the flow rate signal falls between the first flow rate threshold and a second flow rate threshold. 10. The transfer pump of claim 1 , wherein the controller is configured to de-energize the motor when the flow rate signal of the fluid in the bypass path is at or above a flow rate of the fluid in the main pump path. 11. The transfer pump of claim 10 , wherein the controller is further configured to energize the motor when the flow signal of the fluid in the bypass path is at or below a second flow rate threshold indicative of a non-siphoning condition. 12. A method of operating a transfer pump, the method comprising: providing a pump being configured to transfer a fluid through a primary channel and a bypass channel, the pump including a motor being configured to transfer the fluid through the primary channel; determining a flow rate associated with the fluid being transferred through the primary channel or the bypass channel; and de-energizing the motor to discontinue the transfer of the fluid through the primary channel while fluid flows through the bypass path based on the flow rate satisfying a first flow rate threshold. 13. The method of claim 12 further comprising monitoring the flow rate of the fluid continuously through the bypass channel using a flow sensor. 14. The method of claim 12 further comprising energizing the motor to induce the flow of the fluid through the primary channel based on the flow rate satisfying a second flow rate threshold. 15. The method of claim 12 further comprising disabling the transfer pump based on the flow rate satisfying a second flow rate threshold and satisfying a time threshold.