In one aspect, a system for monitoring a level of hydraulic fluid in an agricultural sprayer includes a drive system, a hydraulic fluid system, and a fill level sensor. The system also includes a computing system communicatively coupled to both the drive system and the fill level sensor. The computing system is configured to monitor the level of hydraulic fluid within the hydraulic fluid reservoir based on data received from the fill level sensor. The computing system is further configured to detect a leak condition in the hydraulic fluid system based at least in part on the monitored level of the hydraulic fluid within the hydraulic fluid reservoir and control an operation of the drive system to reduce the ground speed of the agricultural sprayer in response to detecting the leak condition.

A mobile fuel distribution station includes a mobile trailer, a pump, a manifold, hoses, detachably connectable fuel caps connected or connectable with the hoses, valves, and fuel level sensors. The station is configured to operate the pump responsive to a low fuel threshold to provide fuel to the manifold, from the manifold to the valves, and from the valves through the hoses. A related method includes receiving fuel operating parameter data from at least one mobile fuel distribution station into a remote server, determining whether the fuel operating parameter data is within a preset limit, and sending a control action in response to the fuel operating parameter data being outside the preset limit. A related system includes one or more of the stations, at least one server configured to receive fuel operating parameter data, and at least one electronic device configured to communicate with the server.

An automatic truck tank fill system includes a conduit in fluid communication with a fluid supply source. An electrically controlled valve is in fluid communication with the conduit. A fill spout is in fluid communication with the conduit, the fill spout including an outer chamber. A controller is in electrical communication with the valve. A first signal opens the valve from a closed position permitting fluid flow through the conduit, and a second signal causes the valve to close, preventing fluid to flow through the conduit. A tubing is in fluid communication with the fill spout. A pressure transducer is in fluid communication with the tubing, and the controller is in electrical communication with the pressure transducer. When a pressure in the tube reaches or exceeds an activation pressure (P1), the controller sends a signal to close the valve in the conduit.

A delivery system includes a transportation container for cooking oil carried by a delivery vehicle for filling a storage container located at a restaurant. A flexible conduit is temporarily connected between the transportation container and the storage container. The oil is pumped from the transportation container to the storage container. A pressure sensor, carried by the vehicle downstream the pump, monitors pressure in the storage container. A processor operates with the pressure sensor for determining a pressure level in the storage container and controls delivery of the oil for limiting a pressure level to a preselected value. The system waits a period of time and tests the pressure to allow the pressure in the storage container to equalize so that pressure in the conduit at the vehicle is the same as pressure in the storage container. The pressure level is used to establish the amount of cooking oil delivered.

In one embodiment, systems and methods include using a pressure relief shipping adapter to reduce the internal pressure of a container. A pressure relief shipping adapter comprises a body comprising a first portion and a second portion. The first portion comprises a first bore and a set of protrusions. The second portion comprises a second bore, wherein the second bore comprises a radial gap, wherein the radial gap comprises a uniform arc length along the length of the radial gap. A first end and a second end of the radial gap comprise a greater arc length than the radial gap. A pressure relief shipping adapter further comprises a pressure relief valve disposed at a first end of the first bore and an interlocking component comprising a first tab and a second tab, wherein the interlocking component is at least partially contained within the second bore.

An overfill valve associated with a drop tube segment fluidly connected to a fluid reservoir is described. The overfill valve includes a valve body positioned within the drop tube segment and a non-contact valve actuator positioned exterior to the drop tube segment and operable to actuate the valve body from an open position to a closed position without requiring any physical penetration through the wall of the drop tube segment. The non-contact valve actuator has a first position in which the non-contact valve actuator does not actuate the valve body from the open position to the closed position in a second position, achieved when the liquid reservoir reaches a predetermined level approaching the capacity of the liquid reservoir, the non-contact valve actuator actuating the valve body from the open position to the closed position when the non-contact valve actuator obtains the second position.

A method for controlling a filling process, wherein a predetermined filling quantity of a medium is filled into a container, the flow rate of the medium flowing into the container is measured as a time series of measured values for the instantaneous flow rate and a filling quantity already filled is estimated from the time series, wherein at least one current measured value of the time series is corrected on the basis of at least one earlier measured value of an earlier time series of measured values of the flow rate of an earlier filling process.

A method and system for controlling a transfer of liquid from or to a transport vehicle uses a memory module on the vehicle to keep track of vehicle parameters. When a transfer request, having a plurality of transfer parameters, is received, transport vehicle parameters representative of a current condition of the transport vehicle are retrieved. The transfer parameters are compared to the transport vehicle parameters. The transfer proceeds as a result of determining that each comparison of a transfer parameter to a transport vehicle parameter is correct.

A personal vaporizer has a hollow tube that extends from an atomizer through a tank for holding vaporization media. The hollow tube has a filling hole formed through a side wall thereof. To fill the tank, vaporization media can be injected into a mouthpiece and flows into the hollow tube. A divider wall in the hollow tube deflects vaporization media through the filling hole and into the tank. After the tank is filled with vaporization media, vaporizer is moved to an assembled configuration in which the filling hole is blocked.

Method for autonomously fueling machinery operating at fracking sites. A fuel tank with a plurality of fuel lines individually coupled to a fuel tank are used. Pumps are connected to some of the fuel lines. Pump outputs are coupled to hoses extending to machinery tanks to be refueled. A cap is detachably connected to the hoses and machinery tanks to be fueled. The fuel tank includes an intake filter capable of blocking approximately 10 micron contaminants with about 250 gallon per minute flow rate. The methodology of the present invention includes measuring the duration of machinery tank fuelings and the interval between fuelings. A first alarm is generated if the duration of fuelings is longer than a first interval. A second alarm is generated if the interval between fuelings is longer than a second interval.