Modular Air Ecosystem Box for Energy-Efficient Air Quality Control
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Summary
Problems
Traditional air handling units are inflexible and energy-intensive, requiring all functions to be activated simultaneously, which increases material and space usage and contradicts the principles of energy-saving and environmental sustainability, especially in transition seasons.
Innovation solutions
A disc-type air ecosystem box with a modular design that allows functions to be connected in parallel, featuring a power module, health processing module, summer load module, winter comfort module, safety module, and air supply module, which can be selectively activated based on air quality and season, incorporating features like ultraviolet sterilization, electrostatic filtration, and PM2.5 detection, and utilizing a frequency conversion motor and thermotube reheat coil.
TRIZ Analysis
Specific contradictions:
General conflict description:
Principle concept:
If traditional air handling units integrate multiple functions (filtration, cooling, heating, humidification, sterilization) to meet diverse air quality requirements, then the system can handle various air quality conditions, but energy consumption increases and material usage increases
Why choose this principle:
The air handling unit is divided into multiple independent functional modules (primary filtration module, middle-effect electrostatic filtration module, surface cooling module, heating module, humidification module, sterilization module) that can operate independently. Each module is a separate component with its own control, allowing selective activation based on air quality conditions and seasonal requirements, thereby reducing energy consumption while maintaining versatility.
Principle concept:
If traditional air handling units integrate multiple functions (filtration, cooling, heating, humidification, sterilization) to meet diverse air quality requirements, then the system can handle various air quality conditions, but energy consumption increases and material usage increases
Why choose this principle:
The system employs dynamic control where modules are selectively activated or deactivated based on real-time air quality monitoring and environmental conditions. The controller adjusts which modules operate to match current needs, enabling the system to adapt its functionality dynamically rather than running all modules continuously, thus optimizing energy efficiency.
Application Domain
Data Source
AI summary:
A disc-type air ecosystem box with a modular design that allows functions to be connected in parallel, featuring a power module, health processing module, summer load module, winter comfort module, safety module, and air supply module, which can be selectively activated based on air quality and season, incorporating features like ultraviolet sterilization, electrostatic filtration, and PM2.5 detection, and utilizing a frequency conversion motor and thermotube reheat coil.
Abstract
The present invention relates to a disc-type air ecosystem box. The disc-type air ecosystem box includes a housing, and the housing is provided to accommodate a power module, a health processing module, a summer load module, a winter comfort module, a safety module, and an air supply module. The health processing module, the summer load module, the winter comfort module, and the safety module are located on the periphery of the power module, and the air supply module is located behind the power module. The present invention further discloses an air-conditioning method for said disc-type air ecosystem box.