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Provided are systems and methods for humidifying gas to be provided to a patient utilizing heating of an aerosolized mist. A humidification unit (201a) is provided a patient circuit (209) that provides gas to a patient. The humidification unit includes a liquid chamber (303) that receives liquid fro

Provided are systems and methods for humidifying gas to be provided to a patient utilizing heating of an aerosolized mist. A humidification unit (201a) is provided a patient circuit (209) that provides gas to a patient. The humidification unit includes a liquid chamber (303) that receives liquid from a liquid source (203), a nebulizer (305) that nebulizes liquid from the liquid chamber, an aerosol chamber (307) that receives aerosolized liquid from the nebulizer, and a heat source (309a) that converts the aerosolized liquid into a vapor that humidifies gas in the patient circuit.

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1. A humidifier system for humidifying gas delivered to a patient, comprising: a liquid source; anda humidification unit disposed on a patient circuit that provides gas to a patient, wherein the humidification unit comprises: a liquid chamber that receives liquid from the liquid source, wherein the

1. A humidifier system for humidifying gas delivered to a patient, comprising: a liquid source; anda humidification unit disposed on a patient circuit that provides gas to a patient, wherein the humidification unit comprises: a liquid chamber that receives liquid from the liquid source, wherein the liquid chamber includes a concave shaped bottom portion,a nebulizer that nebulizes liquid from the liquid chamber, wherein the nebulizer is located at the bottom portion of the liquid chamber so that liquid introduced into the liquid chamber is funneled towards the nebulizer, and wherein the nebulizer comprises an aperture plate with holes, the aperture plate being coupled to a vibrational element, wherein vibration of the vibrational element causes the aperture plate to vibrate, which causes liquid to move through the aperture plate holes for nebulizing the liquid into aerosolized particles,an aerosol chamber that receives aerosolized particles from the nebulizer,a heat source located within the aerosol chamber that converts the aerosolized particles into a vapor, anda hydrophobic membrane that separates the aerosol chamber from the patient circuit, wherein the hydrophobic membrane prevents liquid and aerosolized particles in the aerosol chamber from entering the patient circuit but permits the vapor to enter the patient circuit from the aerosol chamber which humidifies gas in the patient circuit. 2. The system of claim 1, further wherein the heat source includes one or more discontinuous panels or elements located on a wall of the aerosol chamber that provide sufficient heat to convert the aerosolized particles into the vapor. 3. The system of claim 1, further wherein the heat source is located between the nebulizer and the hydrophobic membrane along a path from the aerosol chamber to the patient circuit, wherein the heat source generally obstructs a flow along the path and further comprises a porous element that enables aerosolized particles to pass therethrough, further to heat and convert the aerosolized particles into the vapor. 4. The system of claim 1, further wherein the aerosol chamber comprises walls, and wherein the heat source lines the walls of the aerosol chamber to encircle the aerosolized particles, further to heat and convert the aerosolized particles into the vapor. 5. A method for humidifying gas delivered to a patient, comprising: receiving, at a liquid chamber, water from a liquid source, wherein the liquid chamber includes a concave shaped bottom portion;aerosolizing liquid from the liquid chamber, wherein aerosolizing liquid comprises providing a nebulizer located at the bottom portion of the liquid chamber so that liquid introduced into the liquid chamber is funneled towards the nebulizer, and wherein providing the nebulizer comprises providing an aperture plate with holes, the aperture plate being coupled to a vibrational element, vibrating the vibrational element to cause the aperture plate to vibrate, which causes liquid to move through the aperture plate holes for nebulizing the liquid into aerosolized particles;providing the aerosolized particles to an aerosol chamber;heating the aerosolized particles within the aerosol chamber into a vapor;separating, via a hydrophobic membrane, the aerosol chamber from a patient circuit, wherein the hydrophobic membrane prevents liquid and aerosolized particles in the aerosol chamber from entering the patient circuit but permits the vapor to enter the patient circuit from the aerosol chamber; andproviding the vapor to the patient circuit to humidify a gas therein. 6. The method of claim 5, further wherein the aerosolized particles are heated into the vapor from a heat source that includes one or more discontinuous panels or elements located on a wall of the aerosol chamber. 7. The method of claim 5, further wherein the aerosolized particles are heated into the vapor from a heat source that is located between the nebulizer and the hydrophobic membrane along a path from the aerosol chamber to the patient circuit, wherein the heat source generally obstructs a flow along the path and further comprises a porous element that enables aerosolized particles to pass therethrouqh. 8. The method of claim 5, further wherein the aerosol chamber comprises walls, and wherein the aerosolized particles are heated into the vapor from a heat source that lines the walls of the aerosol chamber to encircle the aerosolized particles. 9. A humidifier system for humidifying gas delivered to a patient, comprising: liquid source means for storing a liquid; andhumidification means disposed on a patient circuit that provides gas to a patient, wherein the humidification means comprises: liquid chamber means for receiving liquid from the liquid source means, wherein the liquid chamber means includes a concave shaped bottom portion,nebulizing means for nebulizing liquid from the liquid chamber means, wherein the nebulizing means is located at the bottom portion of the liquid chamber means so that liquid introduced into the liquid chamber means is funneled towards the nebulizing means, and wherein the nebulizing means comprises an aperture plate with holes, the aperture plate being coupled to a vibrational element, wherein vibration of the vibrational element causes the aperture plate to vibrate, which causes liquid to move through the aperture plate holes for nebulizing the liquid into aerosolized particles,aerosol chamber means for receiving aerosolized particles from the nebulizing means,heat source means for converting the aerosolized particles into a vapor, wherein the heat source means is located within the aerosol chamber means, anda hydrophobic membrane means for separating the aerosol chamber means from the patient circuit, wherein the hydrophobic membrane means prevents liquid and aerosolized particles in the aerosol chamber means from entering the patient circuit but permits the vapor to enter the patient circuit from the aerosol chamber means which humidifies gas in the patient circuit. 10. The system of claim 9, further wherein the heat source means includes one or more discontinuous panels or elements located on a wall of the aerosol chamber means that provide sufficient heat to convert the aerosolized particles into the vapor. 11. The system of claim 9, further wherein the heat source means is located between the nebulizing means and the hydrophobic membrane means along a path from the aerosol chamber means to the patient circuit, wherein the heat source means generally obstructs a flow along the path and further comprises a porous element that enables aerosolized particles to pass therethrough, further to heat and convert the aerosolized particles into the vapor. 12. The system of claim 9, further wherein the aerosol chamber means comprises walls, and wherein the heat source means lines the walls of the aerosol chamber means to encircle the aerosolized particles, further to heat and convert the aerosolized particles into the vapor.