The State of California has been in severe drought conditions yet ironically it is surrounded by oceanwater. Existing desalination systems require expensive electrical power to produce clean potable water. This invention creates its own electrical power input, and even EXTRA ELECTRICAL POWER to supplement California's electrical power grid (part of this inventor's other U.S. patent application Ser. No. 16/598,965.

Desalination and Distillation are two concepts that now belong to public domain and are not owned by anyone. Oceanwater is boiled and salt is left behind, in the process producing clean potable water. Steam is cooled down using cooling coils similar to car radiator, using a blower fan and oceanwater sprinklers.

The State of California has been in severe drought conditions yet ironically it is surrounded by oceanwater. Existing desalination systems require expensive electrical power to produce clean potable water. This invention creates its own electrical power input, and even EXTRA ELECTRICAL POWER to supplement California's electrical power grid (part of this inventor's other U.S. patent application Ser. No. 16/598,965.

Desalination and Distillation are two concepts that now belong to public domain and are not owned by anyone. Oceanwater is boiled and salt is left behind, in the process producing clean potable water. Steam is cooled down using cooling coils similar to car radiator, using a blower fan and oceanwater sprinklers.

A distillation system and process thereof are provided. The system includes an evaporation vessel having a system for heating a liquid contained therein and producing vapours thereof and a condensation vessel having a system for cooling and condensing the vapours produced in the evaporation vessel. A connecting pipe for connecting the evaporation vessel and the condensation vessel transfers the vapours from the evaporation vessel to the condensation vessel. The amount of vapours transferred from the evaporation vessel to the condensation vessel depends upon the pressure differential between the evaporation vessel and the condensation vessel and area of opening of the connecting pipe.

A distillation system and process thereof are provided. The system includes an evaporation vessel having a system for heating a liquid contained therein and producing vapours thereof and a condensation vessel having a system for cooling and condensing the vapours produced in the evaporation vessel. A connecting pipe for connecting the evaporation vessel and the condensation vessel transfers the vapours from the evaporation vessel to the condensation vessel. The amount of vapours transferred from the evaporation vessel to the condensation vessel depends upon the pressure differential between the evaporation vessel and the condensation vessel and area of opening of the connecting pipe.

A water vending apparatus is disclosed. The water vending system includes a water vapor distillation apparatus and a dispensing device. The dispensing device is in fluid communication with the fluid vapor distillation apparatus and the product water from the fluid vapor distillation apparatus is dispensed by the dispensing device.

A water vending apparatus is disclosed. The water vending system includes a water vapor distillation apparatus and a dispensing device. The dispensing device is in fluid communication with the fluid vapor distillation apparatus and the product water from the fluid vapor distillation apparatus is dispensed by the dispensing device.

A system for separating a solute from high pressure CO2 is provided. The system includes a flash tank receiving a medium pressure rich solvent stream of CO2. In the flash tank, droplets of the medium pressure rich solvent stream of CO2 fall downwardly and accumulate to form a solvent liquid. A heating system is submerged in the solvent liquid and causes the solvent liquid to boil, which releases gaseous CO2 and results in a solute precipitating to the bottom of the flash tank. A liquid level transmitter monitors the level of the solvent liquid and controls the heating system to keep the liquid level above the heating system. The precipitated solute is extracted from the flash tank through a solute egress located at the bottom of the flash tank and controlled by a solute valve.

A fluid vapor distillation system. The system includes a control system for controlling a fluid vapor distillation apparatus including a blow down controller for controlling a blow down valve, a source flow controller for controlling a source flow valve, and a blow down level sensor in communication with a blow down controller and a source flow controller, the blow down level sensor sends signals related to the blow down level to the blow down controller and the source flow controller indicative of the blow down level, wherein the source flow controller actuates the source flow valve based at least on the blow down level sensor signals, and wherein the blow down controller actuates the blow down valve based at least on the blow down level sensor signals, whereby the blow down level and the source flow level are maintained using the blow down level sensor signals as input.

A fluid vapor distillation system. The system includes a control system for controlling a fluid vapor distillation apparatus including a blow down controller for controlling a blow down valve, a source flow controller for controlling a source flow valve, and a blow down level sensor in communication with a blow down controller and a source flow controller, the blow down level sensor sends signals related to the blow down level to the blow down controller and the source flow controller indicative of the blow down level, wherein the source flow controller actuates the source flow valve based at least on the blow down level sensor signals, and wherein the blow down controller actuates the blow down valve based at least on the blow down level sensor signals, whereby the blow down level and the source flow level are maintained using the blow down level sensor signals as input.

Method and apparatus for recovering a material by vaporization is disclosed. The method includes providing a heat transfer fluid to a liquid section of a vessel, injecting a material having a first component and a second component into the heat transfer fluid, the first component having a first volatility and the second component having a second volatility greater than the first volatility, circulating the heat transfer fluid from the liquid section to a heat exchanger, heating the heat transfer fluid to a temperature selected to vaporize at least a portion of the second component to a vapor section of the vessel, recovering the vaporized second component from the vapor section of the vessel, and circulating at least a portion of the heat transfer fluid from the from the heat exchanger through the vapor section of the vessel.