초록 ▼

A system and method of desalinating brackish water from an inland, underground water supply is disclosed. The system includes a source of underground water, at least one distillation and/or non-distillation desalination stage, and a source of waste heat from a power generator. The method includes de

A system and method of desalinating brackish water from an inland, underground water supply is disclosed. The system includes a source of underground water, at least one distillation and/or non-distillation desalination stage, and a source of waste heat from a power generator. The method includes desalinating brackish water drawn from an underground source using waste heat from a power generator and one or more non-distillation and/or distillation desalination stages. Potable water is recovered from both the brackish underground water using waste heat from the power generator, while dissolved salts are taken to dryness and removed as solids and from the flue gases.

대표청구항 ▼

We claim: 1. A method of generating a supply of potable water, the method comprising: drawing a supply of brackish water from a source of brackish water; and reducing the salinity of the supply of brackish water using waste heat from a power generator and producing a supply of potable water, wherei

We claim: 1. A method of generating a supply of potable water, the method comprising: drawing a supply of brackish water from a source of brackish water; and reducing the salinity of the supply of brackish water using waste heat from a power generator and producing a supply of potable water, wherein reducing the salinity of the heated supply of brackish water comprises: passing a heated supply of brackish water through at least one reverse osmosis unit; providing electrical power to the at least one reverse osmosis unit from the power generator; and automatically shutting down the reverse osmosis units and ceasing reduction of the salinity of the supply of brackish water based on a determination of power generator load, whereby power from the power generator is more readily available for distribution during times of peak load. 2. The method of claim 1, wherein the determination of power generator load comprises monitoring a time of day and comparing the monitored time to a shut-off schedule. 3. The method of claim 1, wherein the determination of power generator load comprises monitoring an outside ambient temperature and comparing the outside ambient temperature to a temperature threshold. 4. The method of claim 1, wherein the determination of power generator load comprises monitoring electrical power load on the power generator and comparing the electrical power load to an electrical power load threshold.