Advanced hydroponic technology systems

Precision Agriculture

Where Engineering
Grows Food

A controlled-environment platform that treats every plant as an engineered outcome: measurable, repeatable, and refined by data.

±0.1°C Precision
Real-time Monitoring
95% Water Efficient

Performance Metrics

Measurable Results

Our precision systems deliver quantifiable improvements across every key agricultural metric.

95%
Water Efficiency
Less water than soil farming
24/7
Monitoring
Continuous system oversight
99.9%
System Uptime
Reliability you can plan on
15 min
Adjustment Cycle
Nutrient check frequency
Hydroponic NFT channel system

Growing System

Nutrient Film
Technique (NFT)

A thin, continuous film of nutrient-rich water flows past each root system, delivering precise nutrition and oxygen in a closed loop. No wasted soil, no wasted water, no guesswork.

Closed-loop nutrient recirculation
Oxygenated root zones for rapid growth
Modular channels that scale horizontally
95% water reduction vs. field agriculture
IoT sensor network monitoring plants

Sensor Network

Every Variable
Measured, Always

50+ sensor points per greenhouse section read the environment every five minutes. pH, EC, temperature, humidity, CO₂, light: every dimension of plant health is captured, logged, and acted on in under a minute.

pH Precision
±0.1
EC Precision
±0.05 mS/cm
Temp Accuracy
±1°C
Humidity
±5% RH

Technology Stack

Six Systems,
One Integrated Platform

Every variable in our growing environment is measured, controlled, and optimized to ensure maximum plant performance and consistent output quality.

Hydroponic NFT Systems

Nutrient Film Technique delivers precise nutrition to plant roots through carefully engineered channels.

Key Features

  • Continuous nutrient circulation
  • Minimal water waste
  • Optimal oxygen delivery to roots
  • Scalable modular design

Nutrient Control (EC/pH)

Automated monitoring and adjustment systems maintain optimal nutrient levels for maximum plant performance.

Key Features

  • Real-time EC and pH monitoring
  • Automated dosing systems
  • Custom nutrient recipes per crop
  • Data logging and analytics

Climate Control

Precision environmental management creates optimal growing conditions regardless of external weather.

Key Features

  • Temperature regulation (±1°C)
  • Humidity control (±5% RH)
  • CO₂ supplementation
  • Air circulation optimization

Water Efficiency

Closed-loop water systems minimize waste while maintaining optimal hydration and nutrition delivery.

Key Features

  • Recirculating water system
  • Minimal evaporation loss
  • Water quality monitoring
  • Automated irrigation scheduling

Automated Systems

IoT sensors and control systems manage all aspects of the growing environment with minimal human intervention.

Key Features

  • Sensor network deployment
  • Automated decision making
  • Remote monitoring capability
  • Predictive maintenance

Scalable Infrastructure

Modular design allows for rapid expansion while maintaining consistent quality and operational efficiency.

Key Features

  • Modular greenhouse design
  • Standardized control systems
  • Rapid deployment capability
  • Centralized monitoring

Specifications

Technical Specifications

Detailed performance metrics and capabilities of each system.

Hydroponic NFT Systems

Nutrient Film Technique delivers precise nutrition to plant roots through carefully engineered channels.

Water Efficiency
95% reduction vs soil farming
Nutrient Delivery
Continuous flow system
Growing Medium
Rockwool and perlite
Channel Design
Food-grade PVC with optimal slope

Nutrient Control (EC/pH)

Automated monitoring and adjustment systems maintain optimal nutrient levels for maximum plant performance.

pH Range
5.5 – 6.5 (±0.1 accuracy)
EC Control
1.2 – 2.8 mS/cm (±0.05 accuracy)
Monitoring Frequency
Every 15 minutes
Adjustment Speed
< 30 seconds

Climate Control

Precision environmental management creates optimal growing conditions regardless of external weather.

Temperature Range
18 – 25°C (day/night cycles)
Humidity Control
60 – 80% RH
CO₂ Levels
400 – 1200 ppm
Air Exchange
40 exchanges/hour

Water Efficiency

Closed-loop water systems minimize waste while maintaining optimal hydration and nutrition delivery.

Water Usage
90% less than traditional farming
Recirculation Rate
95% system efficiency
Quality Monitoring
TDS, pH, temperature
Irrigation Cycles
Customizable per growth stage

Automated Systems

IoT sensors and control systems manage all aspects of the growing environment with minimal human intervention.

Sensor Points
50+ per greenhouse section
Data Collection
Every 5 minutes
Response Time
< 60 seconds
Uptime
99.9% system availability

Scalable Infrastructure

Modular design allows for rapid expansion while maintaining consistent quality and operational efficiency.

Module Size
500m² greenhouse units
Expansion Time
6 – 8 weeks per module
Capacity per Module
20,000 plants/month
Control Integration
Centralized SCADA system

Control Platform

One Dashboard.
Every System.

All systems feed into a centralized SCADA platform that monitors, analyzes, and optimizes every aspect of the growing environment in real time, from anywhere in the world.

Real-time Monitoring

Continuous data from 50+ sensor points per greenhouse section

Automated Response

System adjustments within 60 seconds of parameter changes

Predictive Analytics

Machine learning predicts optimal harvest times and yields

Centralized agricultural control dashboard

By the Numbers

Results You Can Count

Proof that precision agriculture outperforms traditional methods on every axis.

95%
Water Saved
vs. traditional farming
365
Days Per Year
continuous production
99.9%
System Uptime
reliability guaranteed
3x
Faster Growth
vs. soil farming

R&D Pipeline

What We're Building Next

We continuously invest in research and development to push the platform forward.

AI Yield Prediction

Machine learning models that predict optimal harvest windows and forecast yield per module with growing accuracy.

In Development

Vertical Growing

Multi-tier NFT systems to increase production per square meter by 3–5x while maintaining precision control.

Testing Phase

Energy Optimization

Solar integration and next-generation LED spectrums to drive operational costs down and sustainability up.

Implementation

See the Technology In Action

Interested in how GrowLeb's precision agriculture can supply your business? Let's talk. We host guided tours of our facility for qualified partners.

Request a Facility TourContact Our Team