An emitter provided with: a water intake part that communicates with the interior of a tube when the emitter is joined to the tube; a pressure-reducing flow channel part for forming a pressure-reducing flow channel; a flow rate adjustment part for adjusting the flow rate of the irrigation liquid in accordance with the pressure of the irrigation liquid inside the tube; and a discharge part that faces a discharge opening. The flow rate adjustment part has: a base; an accommodation part that accommodates the base; a communication hole that opens to the base and communicates with the discharge part; and a diaphragm part that is flexible and is disposed so as to be separated from the base, the diaphragm part approaching the base when the pressure of the irrigation liquid inside the tube is received.

This application provides a dendrobium watering method and system, by way of imitation of wild cultivation of dendrobium on volcano, first on the volcano cant selection from the top 15 to 25 cm line code position, use a hard masonry nail line code insert to spray rod fixed to the fixed position of the line of code. The ground lance G-shaped nozzle is higher than the top of the volcano.

Aeration and drying of subsurface soils with a subsurface irrigation system. An air inlet and bypass pressure regulator allow pressurized gas to be introduced into a zone of the system to aerate and dry a field. Pressurized gas or aerosolized agrochemicals are delivered through emitters integrated into the driplines within the system. Emitters integrated into the driplines allow aeration and drying of subsurface soils during times of season when high amounts of precipitation or localized flooding interfere with the systems use for irrigation.

Aeration and drying of subsurface soils with a subsurface irrigation system. An air inlet and bypass pressure regulator allow pressurized gas to be introduced into a zone of the system to aerate and dry a field. Pressurized gas or aerosolized agrochemicals are delivered through emitters integrated into the driplines within the system. Emitters integrated into the driplines allow aeration and drying of subsurface soils during times of season when high amounts of precipitation or localized flooding interfere with the systems use for irrigation.

Provided is a method of delivering water to a root system of a crop, the method including causing the crop to be adjacent to, or in a region of, soil containing hydrogel, and delivering air to the hydrogel.

Provided is a method of delivering water to a root system of a crop, the method including causing the crop to be adjacent to, or in a region of, soil containing hydrogel, and delivering air to the hydrogel.

A system includes a longitudinally extending infrastructure, for example a piping infrastructure, and a plurality of nodes located along the infrastructure. The system further includes communication channels that extend along the infrastructure that communicate with the nodes for permitting multi-hop routing of messages between nodes along the infrastructure.

A drip irrigation apparatus and system. The drip irrigation apparatus includes a flow channel body and an elastic body. The elastic body is mounted on the outer circumference of the flow channel body and fitted in a spontaneous state to the outer circumference of the flow channel body. The flow channel body includes an energy dissipation body. The first drainage channel is formed in the energy dissipation body, the first drainage channel is connected to both ends of the energy dissipation body. The first drainage channel is connected at both ends of the first drainage channel to the inner wall of the elastic body forming a radial drainage channel.

An irrigation communicates wirelessly with irrigation control valves. A wireless controller transceiver unit obtains signals from the irrigation controller and transmits these signals wirelessly to a valve transceiver. The irrigation control valves open or close according to the signals received by the valve transceiver. The irrigation system also includes an auxiliary communication device that communicates user commands to the controller transceiver. The user commands are used to create associations between the controller transceiver and each of the valve transceivers. The communication link between the auxiliary communication device and the communication transceiver or the valve transceiver can be an RF communication link such as Bluetooth, a close field communication link such as an inductive communication link, or an optical communication link.

An irrigation communicates wirelessly with irrigation control valves. A wireless controller transceiver unit obtains signals from the irrigation controller and transmits these signals wirelessly to a valve transceiver. The irrigation control valves open or close according to the signals received by the valve transceiver. The irrigation system also includes an auxiliary communication device that communicates user commands to the controller transceiver. The user commands are used to create associations between the controller transceiver and each of the valve transceivers. The communication link between the auxiliary communication device and the communication transceiver or the valve transceiver can be an RF communication link such as Bluetooth, a close field communication link such as an inductive communication link, or an optical communication link.