A method for processing water and a control apparatus are provided. According to the method, a processor in communication with an apparatus for processing water may determine a water usage amount for an object; determine water usage time for the object; calculate time required for water preparation according to the water usage amount, a water preparation speed of the apparatus for processing water and a current amount of residual water; and determine time of starting water preparation according to the time required for water preparation and the water usage time.

Various systems, devices, and methods are provided for facilitating communication between a forecourt controller and a fuel dispenser. In certain aspects, a fuel controller translator is provided for translating commands transmitted between the forecourt controller and the fuel dispenser. For example, where the forecourt controller transmits commands that are compatible with the payment terminal, but not with the fuel controller, the fuel controller translator can translate the commands received from the forecourt controller into a format compatible with the fuel controller. Conversely, the fuel controller translator can translate commands received from the fuel controller into a format that is compatible with the forecourt controller.

A hydrogen gas supply system comprises a storing unit that stores hydrogen, a communication unit that receives at least either of burden information indicative of an environmental burden exerted during manufacturing of hydrogen externally received by the storing unit and quality information indicative of quality with respect to the hydrogen externally received by the storing unit, a user interface unit that provides an output in accordance with the at least either of the burden information and the quality information with respect to the hydrogen supplied from the storing unit to the user, and a controller that controls the user interface unit based on an amount of the hydrogen received by the storing unit and the at least either of the burden information and the quality information, which is received by the communication unit.

A hydrogen gas supply system comprises a storing unit that stores hydrogen, a communication unit that receives at least either of burden information indicative of an environmental burden exerted during manufacturing of hydrogen externally received by the storing unit and quality information indicative of quality with respect to the hydrogen externally received by the storing unit, a user interface unit that provides an output in accordance with the at least either of the burden information and the quality information with respect to the hydrogen supplied from the storing unit to the user, and a controller that controls the user interface unit based on an amount of the hydrogen received by the storing unit and the at least either of the burden information and the quality information, which is received by the communication unit.

A fueling station transaction system, method and retrofitting method, the system having a fuel pump dispensing fuel to individual customers; a forecourt controller; a terminal disposed within the fuel pump, the terminal comprising a processing unit, a secure card reader, an encryption module and a wireless communication module; the terminal being in wireless communication with a payment processor; one or more point of sale systems which communicate with the forecourt controller using established protocols; and a gateway device, wherein the terminal communicates wirelessly with the gateway device, and wherein the terminal and the forecourt controller communicate with each other only through the gateway device, and wherein the gateway device communicates with the forecourt controller using the established protocols of the point of sale systems. Also disclosed is a method of performing the payment transaction, and for retrofitting current fuel station systems to incorporate the system disclosed herein.

A fluid management controller includes a processor, a wireless interface, and a memory. The wireless interface is configured to communicate between the processor and one or more fluid management components. The processor is configured to authorize control of the one or more fluid management components over the wireless interface. The memory is encoded with instructions that, when executed by the processor, cause the processor to provide dispense authorizations to the one or more fluid management components and record fluid dispense information from the one or more fluid management components in the memory.

Various systems, devices, and methods are provided for facilitating communication between a forecourt controller and a fuel dispenser. In certain aspects, a fuel controller translator is provided for translating commands transmitted between the forecourt controller and the fuel dispenser. For example, where the forecourt controller transmits commands that are compatible with the payment terminal, but not with the fuel controller, the fuel controller translator can translate the commands received from the forecourt controller into a format compatible with the fuel controller. Conversely, the fuel controller translator can translate commands received from the fuel controller into a format that is compatible with the forecourt controller.

A dispenser for dispensing a flowable food product from a flexible reservoir supported by the dispenser is provided. The dispenser includes a frame and a body coupled to the frame. The body defines a cavity for receiving the flexible reservoir. The body includes: a bottom wall defining an opening; a sloped wall extending upward from the bottom wall and the opening, the sloped wall promoting a flow of flowable food product from the flexible reservoir towards the opening; and a pair of side walls extending upward from the bottom wall and the sloped wall. The dispenser further includes a fitment acceptor at least partly received in the opening. Additionally, a shape of the fitment acceptor corresponds with a shape of the opening such that the fitment acceptor is only correctly received in the opening one way.

A dispenser for dispensing a flowable food product from a flexible reservoir supported by the dispenser is provided. The dispenser includes a frame and a body coupled to the frame. The body defines a cavity for receiving the flexible reservoir. The body includes: a bottom wall defining an opening; a sloped wall extending upward from the bottom wall and the opening, the sloped wall promoting a flow of flowable food product from the flexible reservoir towards the opening; and a pair of side walls extending upward from the bottom wall and the sloped wall. The dispenser further includes a fitment acceptor at least partly received in the opening. Additionally, a shape of the fitment acceptor corresponds with a shape of the opening such that the fitment acceptor is only correctly received in the opening one way.

A handheld fluid meter includes a cartridge valve controlling the flow of fluid through the handheld meter. The cartridge valve includes a valve cartridge and a valve stem disposed within the valve cartridge. The cartridge valve guides the valve stem and provides the only sealing surface for the dynamic seals and control seal disposed on the valve stem. The handheld meter dispenses through a nozzle, which includes an overmolded stem tip that generates a laminar fluid flow as the fluid exits the nozzle. The overmolded stem tip is a compliant material. The handheld fluid meter includes circuitry configured to invert the orientation of a visual output provided by a display of the handheld fluid meter to facilitate installation of the handheld fluid meter for use in an oil bar application.