TH108760B - A process for producing a high-rich fraction of natural compounds from fluid palm oil near-critical and above-critical. - Google Patents

Abstract

From palm oil Will be able to produce valuable compounds such as Tocochromanol, carotenoids, phytosterols, and other types. The high concentration of the separation fraction is higher. Has been obscured by a number of related components. Very low volatility, very low solubility of many compounds in organic solvents. And the high viscosity of the mixture to be treated Process The substrate for the new process is a separate fraction with a rich tochromanol (approx. 20 to approx. 50% by weight) and / or carotenoids (approx. Percentage by weight) from palm oil is obtained either by conventional processes or by over-critical carbon dioxide countercurrent multistage processes. These processes Which is not mentioned May include Free fatty acid removal, trans-esterification Of triglycerides to ethyl or ethyl ester Ester removal, for example by short path distillation, distillation separation, tochromanol separation from distillation, carotenoids separation by cooling. In a new process The distillation fraction is derived from crude palm oil, which is rich in Tocochromanol, carotenoids, phytosterols and other types Then to a certain extent will be treated. Current with selective adsorption and de-sorbentization using supercritical fluid. The first fertility increase consisting of one or more separation steps. By applying a fluid above the critical point or near the critical point in a single- or multi-phase (counter-current) separation process, it is appropriately combined with the time-enrichment process. Second, the product of the first enrichment process is adsorbed directly on the sorbent (silica gel) by passing the product through the sorbent fixing bed without change. Critical pressure and subsequent de-sorbing with the same (or different) supercritical fluid at the same or different pressure as in the first separation. Or by a pre-designed sequence of pressure and temperature For increasing the abundance of tochromanol Will use carbon dioxide near the crisis Above the critical temperature of carbon dioxide For increasing fertility Will use propane near The critical point below the propane critical temperature (Figure 2).

Claims (1)

1.Process for producing a high-rich fraction of the target compounds, tocotyenols, carotenoids. And sterols from palm oil with the first separation step It consists of a multistage, countercurrent type separation with a supercritical and / or near Critical point, which brings highly volatile substances to the top. Where the bottom distillation is rich Target compounds and other countercurrent separations with supercritical fluids. And / or near a critical point where the targeted natural compound has been removed