Disclosed is a powerless humidification module for an air cleaner which is capable of preventing leakage of water into the air cleaner. A powerless humidification module for an air cleaner which is detachably mounted on an upper portion of a body of the air cleaner and is capable of preventing leakage of water includes a base cover having a first opening opened toward the air cleaner and a second opening opened toward a side surface of the first opening, a cistern part located in the interior of the base cover and located such that a space defined between an inner partition wall and an outer partition wall having predetermined heights such that water supplied to one side thereof is stored surrounds a periphery of the first opening whereby water supplied to one side thereof is stored, and a humidification filter located in the second opening.

An air conditioner includes: a blower configured to discharge air, the blower being connected to an outdoor unit, a parameter generator configured to generate at least one parameter during a time period for which the air conditioner is operated with a first cooling capacity based on a set temperature, a learning unit configured to receive the generated at least one parameter as a learning factor and generate operation mode information, an operation mode controller configured to control at least one of the blower or the outdoor unit based on the generated operation mode information, and a central controller configured to control the parameter generator, the learning unit, and the operation mode controller. The air conditioner is operated with a second cooling capacity after the air conditioner is operated with the first cooling capacity for the time period, the second cooling capacity being different from the first cooling capacity.

A system for modulating hot gas reheat operation of a heating, ventilation, and/or air conditioning (HVAC) system with multiple compressors, wherein the HVAC system is configured to regulate air provided to multiple zones. The system includes a controller configured to respond to a call for dehumidification in the absence of a call for cooling by sequentially energizing a first compressor of the multiple compressors in a reheat mode of the first compressor, energizing a second compressor of the multiple compressors in a cooling mode of the second compressor, energizing a third compressor of the multiple compressors in a reheat mode of the third compressor initially at full capacity, and energizing a fourth compressor of the multiple compressors in a cooling mode of the fourth compressor.

An opening and closing device includes a door cover including a vent and an opening and closing member configured to be inserted into the door cover through an opening of the vent along an extension direction of the vent. The opening and closing member includes an air door and is movable between an open position at which the air door does not close the vent and a closed position at which the air door closes the vent.

A ventilation system that reduces indoor radon concentration includes indoor radon measuring devices installed in indoor spaces inside a building. A blowing device on an outer wall of the building or in a specific outdoor place includes an exhaust fan for exhausting air and an air supply fan for supplying outdoor air. An exhaust fan driving device drives the exhaust fan in the blowing device. An air supply fan driving device drives the air supply fan in the air blowing device. An air distribution device has upper and lower chambers and includes exhaust passages connected to one end of the exhaust fan to accommodate exhaust dampers that individually exhaust the air to the lower chamber. Air supply passages connected to one end of the air supply fan accommodate air supply dampers to supply the outdoor air and individually distribute the outdoor air to each of the specific indoor spaces.

A ventilation and air-conditioning system includes a heat-exchange ventilation apparatus that includes a first inlet and a first outlet installed in a space to be ventilated, and discharges air in the space to be ventilated drawn in from the first inlet to the outdoors via a heat-exchange element, and blows air in the outdoors from the first outlet into the space to be ventilated via the heat-exchange element, and an air-conditioning apparatus that includes an indoor unit including a second inlet and a second outlet installed in the space to be ventilated, and draws in air in the space to be ventilated from the second inlet and blows the air from the second outlet into the space to be ventilated. The air-conditioning apparatus performs a blowing temperature assist operation to blow air from the second outlet toward the first inlet, based on a blowing temperature assist request level.

Provided herein is a system and method for regulating a sensor enclosure of a vehicle. The system comprises an enclosure comprising a vent at a base of the enclosure, one or more sensors configured to determine a parameter of the vehicle or the enclosure, a fan configured to regulate an internal temperature of the enclosure, and a controller configured to regulate a rotation speed of the fan based on the parameter of the vehicle or the enclosure. The regulating system further comprises a deflector connected to the enclosure and configured to direct an airflow into the vent based on the parameter.

Water harvesting systems and methods of making and using such water harvesting systems, for capturing water from surrounding air using configurations that reduce overall energy costs and improves water harvesting cycle efficiency in the water harvesting system. In particular embodiments, the water harvesting system can be configured for dehumidification-humidification of air, and a method in the water harvesting system for dehumidification-humidification to control moisture level in the air conditioned by the water harvesting system. The systems and methods use sorbent materials, such as metal-organic frameworks, to adsorb water from the air. The systems and methods desorb this water in the form of water vapor, and the water vapor can be condensed into liquid water and collected to dehumidify air conditioned by the water harvesting system. The collected liquid water can be sprayed to humidify air conditioned by the water harvesting system.

Examples of an interface module includes a fan filter unit having a fan and a filter, a housing surrounding a space adjacent to the filter, the housing includes a door, an upper housing surrounding a space adjacent to the fan, a first port provided in the upper housing, a second port communicating to a FFU internal space, the FFU internal space is a space between the fan and the filter in the fan filter unit, and a differential pressure gauge connected to the first port and the second port to detect a differential pressure between an interior of the upper housing and the FFU internal space.

A climate control system is configured to modulate the air environment of an interior space to maintain the dew point of the interior space within a predetermined operating dew point band as the temperature in the room fluctuates.