Abstract: An HVAC system for enhanced source-to-load matching without sacrificing airflow delivery in low load structures. Embodiments of the present disclosure provide for an HVAC system for enhanced source-to-load matching in a low load environment, i.e. dwellings with a BTU/hour capacity of less than 18,000. Prior art HVAC equipment is oversized for dwellings with a BTU/hour capacity of less than 18,000 that are insulated to minimum code requirements. Embodiments of the present disclosure provide for an HVAC system that separates the delivery of airflow (CFM) output from that of the BTU capacity output, thereby enabling a distributed delivery system for optimal source-to-load matching without sacrificing airflow delivery in low load environments. The source-to-load matching enabled by the present disclosure ensures optimal indoor air quality, enhanced comfort for occupants of the dwelling, and approximately a 60% reduction in heating and cooling costs when compared to prior art HVAC systems.

Abstract: A self-contained, integrated, modular HVAC system includes a plurality of adaptive or interchangeable components or swappable modules interconnected to enable the modulation of total airflow and total cooling capacity (sensible plus latent) to meet variable loads, and adjust a sensible heat ratio (SHR) to meet a variable latent ratio of a conditioned space. The components comprise one or more air inlet, damper, inlet damper, air filtration module, air purification module, air freshener module, dehumidifying module, cooling module, air bypass module, blower module, air outlet, I/O panel, and a control cabinet. The components have sensors and actuators that allows a programmable control system to coordinate diagnostics and operations of internal and external components of a refrigeration/heating cycle using various feedback control logics.

Abstract: A smart HVAC system includes a plurality of sensors that monitor the temperature and humidity of a conditioned space and the energy efficiency of the HVAC system. A system controller is operable to control one or more bypass dampers. The modulation of air volume allows the cooling coil to achieve an optimum BTU extraction rate, and regulate temperature and humidity levels of the conditioned space. Sensor data is interpreted by a controller to modulate positioning of the dampers, thereby regulating the volume of air moved across the cooling coil. The smart HVAC system regulates the amount of air moved over the coil according to the desired system output, which includes temperature humidity and energy efficiency while maintaining a constant movement of air and the optimal amount of air exchanges per hour throughout the conditioned space with enhanced dehumidification and mold free systems.

Abstract: A smart HVAC system includes a plurality of sensors that monitor the temperature and humidity of a conditioned space and the energy efficiency of the HVAC system. A system controller is operable to control one or more bypass dampers. The modulation of air volume allows the cooling coil to achieve an optimum BTU extraction rate, and regulate temperature and humidity levels of the conditioned space. Sensor data is interpreted by a controller to modulate positioning of the dampers, thereby regulating the volume of air moved across the cooling coil. The smart HVAC system regulates the amount of air moved over the coil according to the desired system output, which includes temperature humidity and energy efficiency while maintaining a constant movement of air and the optimal amount of air exchanges per hour throughout the conditioned space with enhanced dehumidification and mold free systems.