A system and method allows boats to operate air conditioners while positioned above the water level. A dock-mounted control unit has an inlet for lake or seawater, an inlet for fresh water, and an outlet to the raised boat. The fresh water is temporarily used to prime the system, after which the boat's A/C system can operate normally. After the system is primed, a valve on the control unit is used to close off the fresh water inlet, and the fresh water hose may be removed. A Y-valve (or two 1-way valves) provides two settings, one for ordinary, on-water operation, and the other for use in conjunction with the invention. The invention allows the boat's AC system to function as though it were in the water, allowing normal heat exchange with the body of water and thus, normal A/C while on a lift or hoist.

The vehicle air conditioning apparatus comprises at least one physical condition information sensor which detects information on physical conditions of passengers in a vehicle as physical condition information. The vehicle air conditioning apparatus selectively executes an outside-air circulation control for discharging air from an interior of the vehicle to outside of the vehicle and introducing outside air to the interior of the vehicle from the outside of the vehicle and an interior-air circulation control for taking the air from the interior of the vehicle and returning the taken air to the interior of the vehicle. The vehicle air conditioning apparatus executes the outside-air circulation control when the electronic control unit determines that at least one of the passengers has an infection, based on the physical condition information.

A system for providing raw water for cooling Auxiliary Systems of a Luxury Boat in Temporary Dry Storage involves a pump coupled to a Dry Storage Lift capable of moving the Luxury Boat between an in-water position and a dry storage position, a raw water inlet of the pump is movable between a first position out of a source of the raw water and a second position in the raw water source, and wherein, when the Dry Storage Lift has the Luxury Boat in the in-water position, the raw water inlet will be in the first position and when the Dry Storage Lift has the Luxury Boat in the dry storage position, the raw water inlet will be in the second position.

A system for providing raw water for cooling Auxiliary Systems of a Luxury Boat in Temporary Dry Storage involves a pump coupled to a Dry Storage Lift capable of moving the Luxury Boat between an in-water position and a dry storage position, a raw water inlet of the pump is movable between a first position out of a source of the raw water and a second position in the raw water source, and wherein, when the Dry Storage Lift has the Luxury Boat in the in-water position, the raw water inlet will be in the first position and when the Dry Storage Lift has the Luxury Boat in the dry storage position, the raw water inlet will be in the second position.

A sealing set may be used for sealing and draining a liquid and may comprise a check valve and a mating press unit. When the check valve and the mating press unit may be separated, the check valve may be sealed and may prevent flow of liquid or gas from the first end to the second opening, and when the mating press may be pressed against the check valve so that the third end is inserted into the second end, a flow of liquid or gas may be opened between the two ends. The check valve may comprise a hollow elongated cylinder; a sealing gasket; and a mass and a pressing means configured to press the mass against the sealing gasket for sealing an end. The press unit may comprise a second hollow elongated cylinder and may include one or more holes on the third end perimeter.

A boat tower ventilation system for a boat tower to ventilate behind a windshield such as the cockpit area in a tower or the like. Air ventilation units are built into the tower frame and may be opened or closed to the flow of air.

A slide-in structural interface between a Sea Water Intake Riser (SWIR) and a floating unit hull or sump tank bottom plate permits a pull-in, diver-less installation of the SWIR. Certain embodiments include an integrated, easily maintainable strainer.

A slide-in structural interface between a Sea Water Intake Riser (SWIR) and a floating unit hull or sump tank bottom plate permits a pull-in, diver-less installation of the SWIR. Certain embodiments include an integrated, easily maintainable strainer.

A method for natural ventilation of a vehicle interior includes steps of: determining, by a controller, formation of an interior negative pressure in an interior space while driving of a vehicle is maintained as an internal air mode, determining, by the controller, an over-production of a harmful gas in an exhaust gas using an air-to-fuel ratio or an Accelerator Position Scope (APS), in an air conditioning system; regarding satisfaction of the formation of the interior negative pressure and satisfaction of the over-production of the harmful gas as an entry condition and mixing an exterior air into the interior space so as to mitigate the interior negative pressure in the internal air mode; and after mixing the exterior air, regarding the non-satisfaction of the over-production of the harmful gas as a cancellation condition and blocking the exterior air.

Heat transfer devices and methods for enclosing a heat source and facilitating convective heat transfer from the heat source. A heat transfer device includes an outer wall having an outer surface exposed to an environment of the heat transfer device and defining an outer shape of the heat transfer device, and an inner wall defining a flow passage through the heat transfer device. The outer wall and the inner wall collectively define an internal volume that is configured to house the heat source. The flow passage includes an inlet configured to receive a fluid from the environment, and an outlet configured to exhaust the fluid from the flow passage that includes a core region extending between the inlet and the outlet and configured to deliver the fluid from the inlet to the outlet and allow heat to exchange between the fluid within the core region and the internal volume.