A freezing apparatus includes a tube that stores a freezing target, an electric pipetter that is actuated for injection and discharge of a liquid into and from a tube and for movement of the tube, and a liquid nitrogen tank that stores refrigerant for freezing the freezing target. The tube has, at a bottom thereof, an opening smaller in size than the freezing target. The electric pipetter discharges the liquid from the tube through the opening after the injection of the liquid into the tube, and moves the tube to the liquid nitrogen tank.

Methods and apparatus consistent with the present disclosure may provide electrical energy and thermal to extraction or separation equipment. Methods and apparatus consistent with the present disclosure may extract and concentrate essential elements plant matter. An amount of wasted heat energy collected from a engine that powers an electrical generator may be provided to an evaporation or separation process when electrical power is provided to extraction or separation processing equipment. Computers or electronics that control equipment consistent with the present disclosure may be remotely controlled via a mobile electronic device, when desired. Such computers or electronics may receive sensor data related to the operation of plat matter extractors, related separation equipment, or other equipment may be used to manage a production line. As such, methods and apparatus consistent with the present disclosure may extract essential elements from cannabis plant matter and process those essential elements into cannabis extracts or isolates.

Systems and methods are described for transferring gas from an ablation cell to an inductively coupled plasma analysis system via a gas exchange membrane transfer line to exchange gas introduced to the ablation cell with a sweep gas. A system embodiment includes, but is not limited to, a laser ablation cell configured to generate a sample transfer stream through laser ablation of a sample and introduction of a carrier gas to flow the ablated sample from the laser ablation cell; an inductively-coupled plasma analysis device configured to measure one or more analytes in the sample transfer stream; and a gas exchange membrane transfer line fluidically coupled between the laser ablation cell and the inductively-coupled plasma analysis device, the gas exchange membrane transfer line configured to replace gas in the sample transfer stream with sweep gas via gas exchange across a membrane of the gas exchange membrane transfer line.

An electronic faucet including a wireless module facilitating remote control of an electrically operable valve. Illustratively, the wireless module includes a body defining a fluid passageway in fluid communication with the electrically operable valve, and a receiver configured to receive wireless signals from a remote transmitter. The remote transmitter may comprise a voice recognition and conversion device to facilitate voice control of the electrically operable valve.

System and method for controlling an irrigation system using feedback from flow meters installed in an irrigation system are described. The system and method allows for automatic detection of the number of flow meters and their relation to controls valves attached to an irrigation system and for precise and reliable fluid flow measurements. Typical water flows for the system are learned and then compared to current water flows to detect water leaks (i.e., high water flow), malfunctioning control valves and/or low water flow and subsequently trigger electronic alerts to the user when system malfunctions are detected.

A material handling system includes a chassis, a conveyor system supported by the chassis, a pneumatic conveying system supported by the chassis and a storage container supported by the chassis. The conveyor system is configured to convey a granular material from a material unloading station to an inlet of the storage container. Multiple pods are beneath the storage container. Each pod is connected to the storage container by a corresponding pod fill line. A pneumatic conveying line is beneath the pods. The pneumatic conveying line is connected to each of the pods. Each pod has a full level sensor configured to sense when the pod is full or close to full, and an empty level sensor configured to sense when the pod is empty or close to empty.

A system and method for irrigation, and managing irrigation of, a property or landscape. The system may include an irrigation management server (“IMS”) with the information for an irrigation system. The system may access the irrigation system that has been input into the IMS as well as access a third party map that may display the irrigation system over the map. The system may provide for a user's GPS location to be accessed through and identify the location of the user with respect to the map and irrigation overlay. The system display may provide information regarding the landscape to a user. The system may allow for manipulation of the irrigation system while overlaid on the map by the creation and manipulation of zones within the irrigation system as well as the creation and manipulation of other commands, including watering times and watering duration.

A mixing valve that includes a housing having a first outlet, a second outlet, and a mixing chamber; a first flow control valve for controlling flow through the first outlet to the mixing chamber; and a second flow control valve for controlling flow through the second outlet to the mixing chamber; wherein the housing has a length dimension, a width dimension, and a thickness dimension, and the largest of these dimensions is no more than approximately 65 millimeters.

A fluid flow control system having a fluid inlet configured to be operatively coupled to a fluid source, a fluid outlet in fluid communication with the fluid inlet such that fluid may exit the system therethrough, a proximity sensor for detecting the position of an object within a region adjacent the sensor, and a flow control device configured to regulate fluid flow between the inlet and outlet in response to object detection by the sensor, wherein the flow control device varies the fluid flow proportional to the detected distance of an object from the sensor. A water flow control system for use in a shower environment is also provided, as well as a shower control system, methods for controlling water flow based on sensing of the presence and location of an object, and methods for reducing water consumption.

A material handling system includes a chassis, a conveyor system supported by the chassis, a pneumatic conveying system supported by the chassis and a storage container supported by the chassis. The conveyor system is configured to convey a granular material from a material unloading station to an inlet of the storage container. Multiple pods are beneath the storage container. Each pod is connected to the storage container by a corresponding pod fill line. A pneumatic conveying line is beneath the pods. The pneumatic conveying line is connected to each of the pods. Each pod has a full level sensor configured to sense when the pod is full or close to full, and an empty level sensor configured to sense when the pod is empty or close to empty.