수직 에어로포닉 농업 식물 성장 챔버 상자 구멍 모듈 3D 모델

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More Information About 3D Model :
A Vertical Aeroponic Farming Plant Growth Chamber Box Holes Module constitutes a foundational structural unit essential for the implementation of vertical farming systems utilizing aeroponic cultivation methodologies. These modules are specialized components within Controlled Environment Agriculture (CEA), engineered to maximize plant density and resource efficiency by organizing crops in dense, stacked arrays within a controlled, enclosed environment.

### Nomenclature and Context

The structure is designated by several operational names, including Aeroponic Stacking Module, Vertical Growth Unit, or VAF Root Chamber. It functions primarily as the interface between the plant’s photosynthetic zone (the canopy) and the nutrient delivery zone (the rhizosphere). The entire system relies on the principle of aeroponics, where plants are suspended in air and delivered nutrients via an aerosolized mist, eliminating the need for soil or solid growth media (except for initial seedling stabilization).

### Structural Characteristics

The module is typically constructed from inert, food-grade, durable plastics, commonly High-Density Polyethylene (HDPE), Acrylonitrile Butadiene Styrene (ABS), or UV-stabilized polypropylene. These materials ensure dimensional stability, resistance to corrosive nutrient solutions (pH variance), and ease of sanitation crucial for minimizing biological contamination.

Modules are designed for modularity, featuring interlocking mechanisms or standardized mounting points that permit vertical stacking or integration into rack systems. The shape is volumetric, frequently rectangular or cylindrical segments, engineered to optimize the ratio of root volume to overall spatial footprint.

### Functional Mechanics: The Apertures and Root Chamber

The designation "Box Holes Module" refers specifically to the critical apertures (holes) integrated into the module’s exterior surface. These apertures, sometimes termed growth ports, are designed to securely cradle an inert plant holder, such as a net pot or neoprene collar, which provides mechanical support for the seedling stem.

The primary functional requirement of the module is the precise physical separation of the plant’s anatomy:
1. **External Canopy Exposure:** The leaves and stem are oriented outward, exposed to the specialized horticultural lighting (e.g., LED arrays) and the macro-environment of the growth facility, facilitating photosynthesis.
2. **Internal Root Containment:** The entirety of the root mass (rhizosphere) is confined to the sealed internal chamber, which is maintained in complete darkness and high humidity.

This containment facilitates the core aeroponic function. The root zone environment within the chamber is optimized for gas exchange and nutrient delivery. Internal surfaces are often designed to prevent pooling and promote condensate runoff back into the nutrient reservoir, maintaining a closed-loop water and nutrient recirculation system.

### Operational Principles

Within the sealed module, nutrient delivery is accomplished by atomizing a finely calibrated aqueous nutrient solution. High-pressure spray nozzles (HPA) or ultrasonic foggers convert the liquid solution into an aerosolized mist, typically comprising droplets ranging from 5 to 50 micrometers. This mist directly bathes the suspended roots, providing essential macro- and micronutrients along with maximal oxygenation—a significant advantage over traditional hydroponic methods.

The structural integrity of the module is also critical for environmental control. By enclosing the roots, the module isolates the rhizosphere’s microclimate, enabling independent management of root temperature and humidity, while simultaneously shielding the sensitive root tissues from damaging light ***********, which prevents algal growth and pathogen proliferation.

### Applications and Advantages

The use of VAF-PGC Modules is integral to optimizing space utilization, a hallmark of vertical farming. By stacking units, growers can achieve exceptionally high plant densities (plants per square meter of floor space) and significantly reduce the land footprint required for crop production. The system is highly water-efficient, achieving savings of up to 98% compared to traditional field farming, owing to the closed-loop nature of the recirculation mechanism. Applications range from high-value leafy greens and herbs to specialized vine crops, primarily in Controlled Environment Agriculture settings designed for localized food production and year-round harvesting.

KEYWORDS: Vertical Farming, Aeroponics, CEA, Controlled Environment Agriculture, Plant Module, Growth Chamber, Soilless Culture, Modular Design, High-Density Agriculture, Nutrient Mist, Root Zone, Rhizosphere, Recirculation System, Atomization, Net Pots, Urban Agriculture, Space Utilization, Crop Yield, HVAC, Microclimate Control, HDPE, ABS Plastic, Nutrient Delivery, High-Pressure Aeroponics, Water Efficiency, Plant Support, Horticultural Lighting, Closed-Loop System, Precision Farming, Environmental Isolation.