Neonatal incubator humidifier system

I claim: 1. A humidifier system for humidifying a microenvironment in a neonatal incubator, the humidifier system comprising: a reservoir configured to hold water to be evaporated for humidifying the microenvironment; a chamber divider defining a heating chamber within the reservoir; a movable heating element positioned at a surface level of the water inside the heating chamber so as to heat the water at surface level inside the heating chamber; wherein the heating element is moved downward within the heating chamber as an amount of water in the reservoir decreases so as to maintain the heating element at the surface level of the water; and wherein the heating element has a hole that accommodates a guide, and wherein the heating element slides down the guide as it moves downward within the heating chamber. 2. The humidifier system of claim 1 , wherein the heating element is configured and positioned such that only water near the surface level boils and water located in a lower portion of the heating chamber does not boil. 3. The humidifier system of claim 1 , wherein the heating element is puck-shaped, wherein a top side of the puck-shaped heating element is maintained above a water surface and bottom side of the puck-shaped heating element is maintained at or below the water surface. 4. The humidifier system of claim 3 , wherein the heating chamber is cylindrical. 5. The humidifier system of claim 1 , wherein the heating element is maintained at the surface level of the water by a tension spring exerting a spring force calibrated based on a weight of the heating element and a buoyancy force of the water on the heating element to maintain the heating element at the surface level as the amount of water in the reservoir decreases. 6. A humidifier system for humidifying a microenvironment in a neonatal incubator, the humidifier system comprising: a reservoir configured to hold water to be evaporated for humidifying the microenvironment; a chamber divider defining a heating chamber within the reservoir; a movable heating element positioned at a surface level of the water inside the heating chamber so as to heat the water at surface level inside the heating chamber; wherein the heating element is moved downward within the heating chamber as an amount of water in the reservoir decreases so as to maintain the heating element at the surface level of the water; and wherein the heating element is maintained at the surface level of the water by a tension spring exerting a spring force calibrated based on a weight of the heating element and a buoyancy force of the water on the heating element to maintain the heating element at the surface level as the amount of water in the reservoir decreases. 7. The humidifier system of claim 1 , wherein the heating element is configured to float on the water inside the heating chamber. 8. The humidifier system of claim 7 , wherein the heating element is a silicon puck, wherein a weight of the heating element is less than a buoyancy force of the water acting on the heating element. 9. The humidifier system of claim 1 , wherein the guide is a leadscrew with thread angles calibrated based on a weight of the heating element and a buoyancy force of the water on the heating element to maintain the heating element at the surface level as the amount of water in the reservoir decreases. 10. A neonatal incubator comprising: a bed configured to support a neonate; a hood above the bed configured to encapsulate a microenvironment around the neonate; a humidifier system configured to control humidity of the microenvironment, the humidifier system having: a reservoir configured to hold water to be evaporated for humidifying the microenvironment; a heating chamber divider defining a heating chamber within the reservoir; a movable heating element positioned at a surface level of the water inside the heating chamber so as to heat the water at surface level inside the heating chamber; wherein the heating element is moved downward within the heating chamber as an amount of water in the reservoir decreases so as to maintain the heating element at the surface level of the water; and wherein the heating element has a hole that accommodates a guide, and wherein the heating element slides down the guide as it moves downward within the heating chamber. 11. The neonatal incubator of claim 10 , wherein the heating element is configured and positioned such that only water near the surface level boils and water located in a lower portion of the heating chamber does not boil. 12. The neonatal incubator of claim 10 , wherein the heating element is puck-shaped, wherein a top side of the puck-shaped heating element is maintained above a water surface and bottom side of the puck-shaped heating element is maintained at or below the water surface. 13. The neonatal incubator of claim 12 , wherein the heating chamber is cylindrical. 14. The neonatal incubator of claim 10 , wherein the heating element is maintained at the surface level of the water by a tension spring exerting a spring force calibrated based on a weight of the heating element and a buoyancy force of the water on the heating element to maintain the heating element at the surface level as the amount of water in the reservoir decreases. 15. The neonatal incubator of claim 14 , wherein the tension spring is configured to provide a constant spring force on the heating element across a range of surface levels from a maximum fill level to a minimum fill level. 16. The neonatal incubator of claim 10 , wherein the heating element is configured to float on the water inside the heating chamber. 17. The neonatal incubator of claim 16 , wherein the heating element is a silicon puck, wherein a weight of the heating element is less than a buoyancy force of the water acting on the heating element. 18. The neonatal incubator of claim 10 , wherein the guide is a leadscrew with thread angles calibrated based on a weight of the heating element and a buoyancy force of the water on the heating element to maintain the heating element at the surface level as the amount of water in the reservoir decreases. 19. The humidifier system of claim 6 , wherein the tension spring is configured to provide a constant spring force on the heating element across a range of surface levels from a maximum fill level to a minimum fill level.