The present disclosure relates to the recovery of an alkoxide catalyst used in a process depolymerizing a polyester to form a diacid or diester and a diol. The present disclosure also relates to the recovery of an alkoxide catalyst used in a process depolymerizing polyethylene terephthalate to form dimethyl terephthalate and mono ethylene glycol.

An adsorbent for trimethylbenzene-based compounds, contains, relative to the total amount of X-type molecular sieve and matrix, 93-99 wt % of X-type molecular sieve and 1-7 wt % of matrix. The matrix is a substance after crystal transformation through in-situ crystallization of clay mineral, the adsorbent is modified with at least one bivalent cation selected from Mg.sup.2+, Ca.sup.2+, Sr.sup.2+, Fe.sup.2+, Co.sup.2+, Ni.sup.2+ and Zn.sup.2+ and optionally modified with at least one monovalent cation selected from Li.sup.+, Na.sup.+, K.sup.+, Rb.sup.+ and Cs.sup.+. A method for preparing the adsorbent, a method of separating trimethylbenzene-based compounds by using the adsorbent, and an apparatus for separating trimethylbenzene-based compounds are provided.

An adsorbent for trimethylbenzene-based compounds, contains, relative to the total amount of X-type molecular sieve and matrix, 93-99 wt % of X-type molecular sieve and 1-7 wt % of matrix. The matrix is a substance after crystal transformation through in-situ crystallization of clay mineral, the adsorbent is modified with at least one bivalent cation selected from Mg.sup.2+, Ca.sup.2+, Sr.sup.2+, Fe.sup.2+, Co.sup.2+, Ni.sup.2+ and Zn.sup.2+ and optionally modified with at least one monovalent cation selected from Li.sup.+, Na.sup.+, K.sup.+, Rb.sup.+ and Cs.sup.+. A method for preparing the adsorbent, a method of separating trimethylbenzene-based compounds by using the adsorbent, and an apparatus for separating trimethylbenzene-based compounds are provided.

The present disclosure provides compositions and methods for producing a high-purity isoprenoid from an isoprenoid composition, wherein the method includes using chromatography to reduce the impurities in the isoprenoid composition to below parts per million levels. Further provided herein are compositions containing high-purity isoprenoids.

The present disclosure provides compositions and methods for producing a high-purity isoprenoid from an isoprenoid composition, wherein the method includes using chromatography to reduce the impurities in the isoprenoid composition to below parts per million levels. Further provided herein are compositions containing high-purity isoprenoids.

The present disclosure provides an automatic separation apparatus for four fractions of heavy oil and a separation method thereof, wherein the apparatus includes a solvent reservoir tank (1), a separation unit for four fractions of heavy oil (100) and a receiving apparatus (9). The separation unit for four fractions of heavy oil (100) includes: a filter disc (4) having one end in communication with the solvent reservoir tank (1), and the other end in communication with an inlet of a pre-column flow path switching valve (5); a chromatographic column (6) having an inlet in communication with an outlet of the pre-column flow path switching valve (5), and an outlet in communication with an inlet of a post-column flow path switching valve (8). The receiving apparatus is in communication with an outlet of the post-column flow path switching valve (8).

A lithium adsorbent includes an aluminum-based adsorbing material, a binder, and a wetting and dispersing agent. The binder includes at least one of a vinylidene fluoride-chlorotrifluoroethylene (VDF-CTFE) copolymer and a fluoroolefin-vinyl ether copolymer. The wetting and dispersing agent includes one or more of polyethylene glycol, sodium polyacrylate, polyvinyl alcohol, and formaldehyde condensate.

A lithium adsorbent includes an aluminum-based adsorbing material, a binder, and a wetting and dispersing agent. The binder includes at least one of a vinylidene fluoride-chlorotrifluoroethylene (VDF-CTFE) copolymer and a fluoroolefin-vinyl ether copolymer. The wetting and dispersing agent includes one or more of polyethylene glycol, sodium polyacrylate, polyvinyl alcohol, and formaldehyde condensate.