Process for component separation utilizing miscibility depression near a freezing point

The invention claimed is: 1. A process for separating a liquid mixture of components comprising: providing the liquid mixture comprising a product component and a carrier component, the product component and the carrier component being partially miscible at a first temperature that is more than 20° C. above a second temperature at which the product component freezes; bringing the liquid mixture substantially near the second temperature at which the product component freezes using a cooler such that the mixture remains a liquid, the product component and the carrier component being essentially immiscible substantially near the second temperature, wherein substantially near the second temperature is within 20° C. above the second temperature; and, separating the mixture in a separation vessel into two or more liquid phases, the two or more liquid phases comprising a product component-rich liquid phase and a product component-depleted liquid phase; whereby the liquid mixture of components is separated. 2. The process of claim 1 , providing the carrier component comprising any compound or mixture of compounds with a freezing point below the second temperature. 3. The process of claim 1 , providing the carrier component and the product component differing in dipole moment, component solubility, size, shape, hydrogen bonding characteristics, densities, mutual affinities, or combinations thereof, wherein they are prone to form separate phases substantially near the temperature. 4. The process of claim 1 , providing the product component comprising carbon dioxide, nitrogen oxide, sulfur dioxide, nitrogen dioxide, sulfur trioxide, hydrogen sulfide, hydrogen cyanide, water, hydrocarbons, mercury, condensed organics, or combinations thereof. 5. The process of claim 1 , providing the separation vessel promoting a stable formation of two liquid phases by minimizing turbulence or other forms of mixing. 6. The process of claim 1 , wherein the separating step is accomplished by a process comprising decanting, centrifuging, gravity settling, enhanced-gravity settling, and combinations thereof.