ACOM Solutions
Bioclimatic control
Optimizing the environment for exceptional results is crucial for production, with benefits in growth, quality, and resource savings.
Temperature control and climate regulation
Controlled temperature: key to optimal growth
Controlling temperature is crucial for the healthy growth of plants, saving energy, and preventing pests.
Natural ventilation
Natural ventilation regulates temperature and air circulation in greenhouses, requiring adaptation to size and climate.
Forced ventilation
Forced ventilation prevents diseases and helps distribute temperature in the greenhouse, requiring good design and energy consumption.
Screens and accessories
Thermal and shading screens control light and heat in greenhouses, improving climate and growth. They represent an initial investment that later reduces costs.
Heating
Heating in greenhouses maintains an appropriate temperature in winter. Choosing the right system reduces costs and improves crop productivity.
Cooling
Cooling in greenhouses maintains optimal temperature and humidity. Proper selection and maintenance reduce costs and maximize effectiveness.
Air recirculation and renewal
Air quality in greenhouses is key to the healthy growth of plants. Air recirculation and renewal are essential.
Humidity control
Humidity monitoring in greenhouses: key to healthy plant growth and productive environment
Monitoring and controlling humidity in greenhouses is crucial for healthy plant growth, productivity, and pest control. Moreover, maintaining an appropriate humidity level can save energy.
Nebulization and Fog System
These are techniques used to control humidity in a greenhouse. Both methods involve atomizing water into small particles, but they differ in how they are performed.
Nebulization
It involves increasing humidity in the air and is used in small greenhouses or specific areas. It sprays water in small fine droplets through pipes and nozzles distributed in the greenhouse.
Fog System
The fog system creates a uniform cloud of mist in large greenhouses, improving air quality and increasing humidity. It reduces transpiration and enhances photosynthesis.
Climate control
Optimization of growing conditions for increased productivity and energy efficiency
ACOM climate controllers automate and regulate temperature, humidity, light, CO2, and ventilation in greenhouses. They maintain constant conditions, improve productivity and energy efficiency, enable precise control, and allow remote access. They help optimize the growing environment and thrive crops.
Weather station
It allows farmers to improve crop quality and yield, reduce costs, and prevent diseases and pests by monitoring and adjusting the climate.
Compact weather station
It is a smaller and portable version of a conventional weather station.
Sensor technology
Sensor technology collects real-time data on climate, air, irrigation, and other factors that affect plant growth.
Programmers
They automate processes such as irrigation, ventilation, heating, and lighting to reduce costs and improve crop quality.
Climate control APP
Interface for selecting and monitoring favorable climate conditions for cultivation in a simple and visual way.
Touchscreens
Physical interface in the field that allows access to settings in a quick and easy manner, as well as visualizing graphs and bioclimatic states of the installation.
Lighting control
The importance of light control in greenhouses: key to healthy growth and plant productivity.
Controlling the proper supply of light, both natural and artificial, in a greenhouse is essential to ensure healthy growth and development of plants, save energy, control temperature, and increase plant productivity.
Photoperiod screens
They are useful in greenhouses for controlling the photoperiod of plants and improving their growth, as well as regulating temperature and humidity.
Photoperiod and supplemental lighting
It provides specific light and adjusts to the needs of the plants. It enhances growth, harvest, and energy savings, and enables year-round production.
Crops and effluent decontamination
ACOM offers sustainable solutions for crops and effluent treatment in greenhouses
Our goal is to provide comprehensive and sustainable solutions that promote more responsible farming, proper effluent management, and increased and improved agricultural production.
Our solutions are tailored to your specific needs and are designed to maximize performance, offering you solutions for proper effluent treatment.
Irrigation
Proper irrigation improves efficiency, reduces costs and water waste, and increases the quality and quantity of agricultural production.
Fertigation
Fertigation is the process of applying soluble nutrients to plants through irrigation. It is applicable in various crops and irrigation systems.
Growing tables
Raised structure for growing plants with better drainage, control, and comfort, and possible integrated irrigation system.
Biowaste
Contaminated water is recirculated and disinfected with caustic soda and hydrochloric acid in an automatic system for subsequent discharge.
UV decontamination
UV decontamination removes microorganisms from water without chemicals, using UV-C radiation that damages their genetic material.
Autoclaving
The technique used in greenhouses to sterilize substrates and soil through high temperatures and pressures.
Gas concentration control
Crucial for an optimal environment and healthy plant development
Gas concentration in a greenhouse ensures a suitable environment for plant growth and health, as well as for the people working in the greenhouse. Gas control in a greenhouse is essential to ensure a suitable environment for plant growth and health, the safety of people, and the energy efficiency of the greenhouse.
Sulfur vaporizers
Sulfur vaporizers are devices used to release sulfur vapor in greenhouses. They control pests and diseases in plants using natural fungicides and acaricides.