How the BCRDWC Hydroponics System
Revolutionises Cultivation
BCRDWC by High-Tech Greens
At High-Tech Greens, we are excited to unveil the BCRDWC hydroponic system, a pioneering advancement in the realm of hydroponic cultivation. This system is not just about growing plants; it’s about advancing the science of root function through precise, quantifiable methodologies. The BCRDWC system is designed to unlock future possibilities in root bio-synthesis analysis, focusing on the individual nutrient uptake and plant metabolic rates throughout the entire crop cycle.
Key Functionalities and Benefits
Quantifiable Root Function Science
The BCRDWC system enables detailed analysis of how plants selectively absorb nutrients according to their metabolic needs at different times of the day and night. This leads to a profound understanding of nutrient requirements on demand, optimising the timing and quantity of nutrient ions delivered to the plant’s roots within the systems recirculating sphere of control.
Sustainable and Efficient Design
Developed over many years, the BCRDWC system addresses the challenges of traditional DWC systems, by reducing all inputs required in the cultivation of our clients valuable crops such as water and nutrient elemental ion dosage, while enhancing and maximizing outputs in crop yield and quality, whilst all but eliminating waste and environmental contamination.
Essential System Features
Recirculation
Vital for large-scale operations, ensuring nutrients and bio elements are reused efficiently, reducing waste and enhancing sustainability.
System Balance
Maintains equilibrium within the system to support consistent plant growth across various cultivation scales, essential for both food and pharmaceutical production.
Nutrient Flow Characteristics
Tailored to maintain uniform nutrient delivery across all root zones, ensuring each plant receives precisely what it needs without extensive manual intervention.
Individual Feed and Return Points
Each root zone has separate nutrient delivery and return points, enhancing the system’s responsiveness to changes in root mass and preventing disruptions in nutrient flow.
Single Point Nutrient Adjustment and Monitoring
Centralised control ensures simplicity and efficiency, crucial for large-scale operations.
Accurate Root Zone Sizing
Each plant’s root zone is optimally sized based on specific crop phenotypes, enhancing growth and efficiency.
Minimal Footprint Requirement
Designed to maximise workspace efficiency, the system provides ample area for foliage manipulation and harvesting processes.
Volumetric Root Nutrient Pass Through
Ensures uniform nutrient delivery, avoiding toxicity and enhancing nutrient uptake.
Zero Non-beneficial Chemicals
Operates without harmful sterilising chemicals, incorporating advanced filtration methods to maintain system purity during the cultivation cycle.
Promotes a symbiotic relationship between plant roots and mycorrhizae, boosting plant health and productivity.
Maintains a balanced nutrient flow, allowing quick nutrient re-balance adjustments to meet plant needs, with minimal delay in re-sensing the elemental balance of solution elemental composition.
Designed for easy cleaning and preparation ready for new crop implementation, ensuring operational continuity and minimal heavy manual handling of rooting material, let the pump do the work.
Adapts to full automation for medium to large-scale cultivation, keeping pace with technological advancements. Allows for the timeless integration of new advanced nutrient sensing equipment as we progress forward into A.I algorithmic sensing and control of the solutions surrounding the root zones.
The BCRDWC system and method Facilitates root zone science expansion through precise data analysis, improving crop production and reducing environmental impact. Furthermore, the system, allows all historical laboratory root zone cell research and understanding to be applied and implemented in real time cultivation. This being due to the majority of root cell research having been carried out utilising micro hydroponics to reduce outside contamination of results. This facilitation by action of the BCRDWC will allow Scientific advancements well into the future, enhancing efficacy and yields for years to come.
See: Marschners Mineral Nutrition of Plants.
Combines simplicity in design and robustness for prolonged use with minimal maintenance.
These core elements demonstrate our commitment to improving BCRDWC cultivation technology, making it viable for both small-scale cultivators and large industrial operations. With the BCRDWC system, High-Tech Greens is setting new standards in hydroponic cultivation, focusing on efficiency, sustainability, and the precise needs of plants at the root zone, where 55% of a plants mass and vigour is derived and assimilated.