The technology behind an automatic irrigation system is changing the way we grow our crops.
Now, it’s also transforming the way our city and our country grows food.
In a world where water is scarce, farmers are increasingly using machines that can deliver water from wells directly to crops.
The technology has been developed by Israeli technology company Arava, which was awarded the 2017 Herzliya Innovation Prize.
Aravas system uses a machine that uses a special water-collecting system, which sends water from the well to the irrigation emitter, which in turn collects water from nearby aquifers.
This technology can reduce the amount of water required for crops, the company says, which can be a boon for the environment and human health.
A new water technology has become one of the most popular options to reduce water use in Israeli agriculture, according to the company.
The company, whose products are sold in Israel and abroad, is also building a small, ultra-low-cost system that uses less water than its competitors, but has been under development for several years.
In 2018, the Aravazas subsidiary, which is based in Israel, partnered with a private company, Suez Technologies, to develop an automatic system that was used by farmers to deliver water directly to their crops.
“We wanted to demonstrate the possibility of an automated system that could provide irrigation water directly from the water table,” said Aravan Arvanit, the CEO of Aravaze.
The system uses two devices: a pump and an automatic water sensor.
The pump works by collecting water from a well and sending it to a device that converts the water into a water-based product that is then used to irrigate the crops.
As the water from this water source is absorbed by the crops, it is collected by a water sensor that monitors the water levels of the crops and converts the moisture into an equivalent amount of irrigation water.
The sensor is connected to the pump, which then uses that water to irrigates the crops as well.
The water used by the pump and the water sensor can be as much as 40 percent less than the amount required by the irrigation system to grow the crops under normal conditions.
The Aravazy system uses water from two sources.
First, the water is sent to the machine that collects water.
This water is converted into a product called a water vapor, which has an electrical charge.
The second source of water is the system’s own water collection system, called a geothermal power plant, which uses the geothermal energy in the earth to generate electricity.
“The geothermal plant uses natural gas to generate power.
We use the natural gas, which we are able to capture, and then use the energy to generate energy for the system,” Arvanig said.
In addition to its direct water-source connection, the system also uses a series of sensors and emitters.
The first is a sensor that measures the amount and location of the water in the wells and converts this information into a reading.
The next sensor collects this information, converts it into a measurement of the amount in the water, and converts that into a signal that is sent out to the system.
The sensors on the emitters measure the amount, temperature, and water pressure in the aquifercourse.
The power plant can then convert this data into an amount of electricity.
The energy produced by the plant is stored in batteries that can be easily plugged into the pumps and used for other purposes.
“It is possible to build a system that will provide the energy for 10 times the amount needed for irrigation and for 10 percent less cost than conventional irrigation systems,” Arranit said.
This new system has the potential to reduce the need for irrigation water, since it does not require a continuous source of irrigation and has no need for additional pumping.
The new water-saving technology is also being used in the United States.
A third of the country’s irrigation water is pumped from wells and used to grow crops.
This has been a growing issue for the United Nations and other agencies.
A report released in January 2018 by the International Energy Agency noted that the U.S. is expected to rely on nearly 90 percent of the nation’s irrigation needs in 2040, which would make it the third largest irrigation user.
The U.N. expects that irrigation water demand will grow at more than 40 percent a year by 2040.
In the United Kingdom, the U,N.
is currently working on a project to improve the use of water in irrigation and climate change adaptation.
The report notes that water scarcity is the main driver of global climate change, with water being used to supply about half of the electricity consumed worldwide.
A large part of this is caused by human activities, which lead to increased evaporation of water and increasing salinity in the ocean, which leads to saltier water.
But the report also notes that many countries