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The greenhouse of the future

Food industry
Vertical farming
Case Study

More sustainable and efficient with ifm automation technologies

System transparency

Quick and easy set-up

Efficiency increase

Results

  • All relevant measured values for the indoor farm can be easily monitored, ensuring high  product quality and less rejected produce  
  • Efficient connection of the sensors via IO-Link
  • Commissioning becomes faster and more efficient
  • Scalable systems thanks to technological support from ifm

The challenge

For the plant growth to be accurately controlled and in order to achieve a high degree of automa­tion, a large number of variables must be meas­ured in an indoor farm. On the basis of these measured values, the system can then be opti­mised to maximise crop yield.

Modern vertical farms require a system combination of hardware, automation, intelligent controllers and sensors. The process control and the data acquisition are becoming increasingly complex. A conventional system design requires a considerable amount of programming and integration.

Each indoor farm has hundreds of I/O signals on its individual vertically stacked layers, which used to be rout­ed back separately to the controller in the past. Accordingly, maintenance work, troubleshoot­ing and the replacement of sensors were very time-consuming. Better and smarter solutions were required for the new projects.

The solution – why ifm?

A variety of different process sensors are used for indoor farms: flow meters for water and nutrient dosing, pressure sensors for the water level, conductivity to check the concentration of minerals, and sensors to control the pressure at the pumps.

Connecting all sensors via IO-Link field modules reduces the complexity of process control and makes more data available from each sensor, thus reducing the overall need for sensors. Recipe changes and design adaptations due to ongoing  innovations are easy to implement using digital communication. The entire set-up process from physical wiring to integration and programming has thus become much more efficient.

With the help of IO-Link technology, customers are now able to standardise their systems and individual modules so that vertical farms can be scaled very easily. Hence, future projects can be implemented much more easily, while also accelerating set-up.

Customers see ifm as a technology partner who is able to help with improving all of their applications. What is more, sensors from ifm can be used in the harvesting process, which is also automated: image processing, position sensors and RFID are just a few examples – and here, too, ifm can of course provide the best possible support.

Case Study: The greenhouse of the future

Our Customer

Indoor farming companies

Feeding the world’s population despite limited resources is a task that requires ever more arable land and fresh water. Highly automated vertical farms could be the future of agriculture.

The food is grown indoors so that the yield is free from pests, pathogens or bad weather. At the same time, this type of cultivation requires 95 % less water, and fertilisers are used with exactly the right dose. There is no need for pesticides and other polluting substances in such sys­tems. Another advantage of this type of cultivation is that vertical farms can be built in the direct vicinity of cities, which saves logistics costs and reduces CO2 emissions.

Our Customer

Indoor farming companies

Feeding the world’s population despite limited resources is a task that requires ever more arable land and fresh water. Highly automated vertical farms could be the future of agriculture.

The food is grown indoors so that the yield is free from pests, pathogens or bad weather. At the same time, this type of cultivation requires 95 % less water, and fertilisers are used with exactly the right dose. There is no need for pesticides and other polluting substances in such sys­tems. Another advantage of this type of cultivation is that vertical farms can be built in the direct vicinity of cities, which saves logistics costs and reduces CO2 emissions.