Conceptual architecture of a typical plant factory, which needs a synergy of industrial informatics and operation technologies in the production floor where communication, computing and AI can play a role. In the crop production floor, plants are growing in vertically stacked modules. The stacked structure brings tremendous flexibility to the arrangement of different cultivars while providing standardized nursery services, leading to the maximum revenue. Crop productions in a plant factory highly rely on cooperation and interaction of a series of subsystems, such as illumination, air management, thermal control, nutrient delivery and factory automation systems, which covers the whole procedure from plant growth phases to harvest and transport.
The success of a plant factory highly relies on three subsystems, namely the lightemitting diode (LED) supplemental system, the plant growth system, and the environmental control system, which appeal for different requirements on industrial communication,computing as well as intelligence. A typical plant factory can be 400 times more efficient in land use compared to outdoor farming [8], thanks to the vertically structured growing modules. As a result, massive sensors that monitor indoor climate and automation facilities,and actuators for the growth system are widely distributed in a plant factory, indicating that wireless communications are preferred to ease the deployment.
OptiClimatefarm An IoT-based Sharing Plant Factory System for Nature Connectedness Improvement in Built Environment
OptiClimatefarm An IoT-based Sharing Plant Factory HVACD System for Nature Connectedness Improvement in Built Environment
In order to reduce carbon emissions, We have developed a special air conditioner with GWP<1 . This air conditioner uses HFO-1234yf refrigerant, which makes carbon emissions almost zero.Inverter technology is an innovative method that has to do with the electromotor of the compressor. The inverter increases the compressor operating frequency to reach the desired temperature rapidly. When this has been attained, it adjusts the frequency to maintain the temperature without consuming excess power efficiently. It runs at full power to achieve the desired temperature; then it runs at part load to retain it, thereby using up less power than a non-inverter AC.
The OptiClimatefarm solar container forage farm, equipped with solar HVAC, is suitable for grass hydroponic green fodder cultivation.
PRO HVACD+Vertical rack+LED growth light + Light modulatordesign maximises available growth area Antibacterial coating prevent growth of bacteria and fungi Air flow optimised by air turns Lighting controlled for each individual shelf.
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