Process to upgrade highly waxy crude oil by hot pressurized water

We claim: 1. A continuous process for decreasing the pour point of a highly waxy crude oil, the continuous process comprising the steps of: mixing the highly waxy crude oil, which has an upper pour point temperature of at least about 90° F. and is introduced into the continuous process at a pressure of at least about the critical pressure of water and at a temperature in a range of from about the upper pour point temperature for the highly waxy crude oil to 150° C., with a water feed, which has a pressure of about at least the critical pressure of water and is at a temperature that does not exceed 150° C., such that the ratio of water to the highly waxy crude oil introduced, as measured at room temperature, is in the range of about 10:1 wt/wt to about 1:10 wt/wt to form a highly waxy crude oil/water mixture; pumping the highly waxy crude oil/water mixture to a heating zone such that the highly waxy crude oil/water mixture is at a pressure of at least the critical pressure of water; heating the highly waxy crude oil/water mixture in the heating zone to a temperature in the range of from about 150° C. to about 350° C. to form a pre-heated mixture, where the pre-heated mixture is at a pressure of at least the critical pressure of water; feeding the pre-heated mixture into a reaction zone and maintaining the pre-heated mixture in the reaction zone for a period in a range of from about 0.1 to about 10 minutes at a temperature of at least the critical temperature of water and at a pressure of at least the critical pressure of water such that at least some of the hydrocarbons of the pre-heated mixture undergo cracking, forming a hot adapted-mixture, where the reaction zone is essentially free of any externally-provided catalyst; cooling and depressurizing the hot adapted-mixture to a pressure of about 0.1 MPa to form a depressurized adapted-mixture; separating the depressurized adapted-mixture into a gas portion and a liquid portion using at least one liquid-gas separator; separating the liquid portion into an upgraded oil and a recovered water using at least one oil-water separator, where the upgraded oil has an upper pour point value of at most about 10° F. and has a total liquid yield of at least about 90 volume % of the introduced highly waxy crude oil; where the continuous process uses a reactor zone having at least one reactor that is operable to maintain the highly waxy crude oil/water mixture for a period of time at a temperature of at least about the critical temperature of water and at a pressure of at least about the critical pressure of water, and where neither hydrogen nor catalytic cracking catalyst are introduced into the continuous process. 2. The continuous process of claim 1 further comprising: introducing a supplied oxygen to the continuous process; oxidizing the recovered water with the supplied oxygen at supercritical conditions for the recovered water to form a treated water; and recycling the treated water by combining the treated water with the water feed; where the supplied oxygen is selected from the group consisting of hydrogen peroxide, organic peroxide and combinations thereof. 3. The continuous process of claim 1 where the ratio of water to highly waxy crude oil introduced is in the range of 10:1 to 1.5:1. 4. The continuous process of claim 1 where the ratio of water to highly waxy crude oil is introduced in the range of 1:3 to 1:10. 5. The continuous process of claim 1 where the reaction zone maintains the temperature of the pre-heated mixture in a range of from about 475° C. and about 600° C. 6. The continuous process of claim 1 further comprising: introducing a supplied oxygen to the continuous process; oxidizing the recovered water with the supplied oxygen at supercritical conditions for the recovered water to form a treated water; and recycling the treated water by combining the treated water with the water feed; where the supplied oxygen is selected from the group consisting of hydrogen peroxide, organic peroxide and combinations thereof. 7. The continuous process of claim 1 where the highly waxy crude oil has an upper pour point temperature of at least about 105° F. 8. The continuous process of claim 1 where the reactor zone maintains the pre-heated mixture for a period in a range of from about 1 to about 3 minutes. 9. The continuous process of claim 1 where the reactor zone maintains the pre-heated mixture at a temperature in a range of from about the critical temperature of water to about 600° C. 10. The continuous process of claim 1 where the reactor zone maintains the pre-heated mixture for about 3 minutes at a temperature of about 480° C. and at a pressure of about 25 MPa.