Abstract: A method for preparing chromium(III) pyridine-2-carboxylate using 2-OP rectification residues, including: subjecting the 2-OP rectification residues to in-situ catalytic pyrolysis and vacuum distillation, room-temperature crystallization and separation, recrystallization and dehydration, alkali-catalyzed hydrolysis, acidification and complexation, and separation, washing and drying to prepare a chromium(III) pyridine-2-carboxylate product, of which a yield is greater than 50% of the weight of the 2-OP rectification residues. The acidification and complexation includes: cooling the aqueous solution containing sodium pyridine-2-carboxylate obtained from the alkali-catalyzed hydrolysis to a temperature below 50° C.; adjusting the aqueous solution to pH 3.0-8.5 with 5-50 wt % dilute H2SO4 or 3-30 wt % dilute HCl followed by batchwise addition of CrCl3, Cr(NO3)3 or Cr2(SO4)3 for complexation at 20-70° C.

Abstract: A method for preparing chromium(III) pyridine-2-carboxylate using 2-OP rectification residues, including: subjecting the 2-OP rectification residues to in-situ catalytic pyrolysis and vacuum distillation, room-temperature crystallization and separation, recrystallization and dehydration, alkali-catalyzed hydrolysis, acidification and complexation, and separation, washing and drying to prepare a chromium(III) pyridine-2-carboxylate product, of which a yield is greater than 50% of the weight of the 2-OP rectification residues. The acidification and complexation includes: cooling the aqueous solution containing sodium pyridine-2-carboxylate obtained from the alkali-catalyzed hydrolysis to a temperature below 50° C.; adjusting the aqueous solution to pH 3.0-8.5 with 5-50 wt % dilute H2SO4 or 3-30 wt % dilute HCl followed by batchwise addition of CrCl3, Cr(NO3)3 or Cr2(SO4)3 for complexation at 20-70° C.

Abstract: A method for preparing pentachloropyridine by utilizing DCTF rectifying short steaming residues, comprising the following steps: converting polymers in the residues through in situ catalytic cracking and vacuum distillation by using the catalytic degradation function of a catalyst formed by aluminum oxide, silicon oxide, zirconia, 4A zeolite, magnesium oxide, mordenite and HZSM-5 zeolite on the polymers in the DCTF rectifying short steaming residues into small molecular compounds and obtaining pentachloropyridine-containing crude oil; washing the pentachloropyridine-containing crude oil by using an aqueous solution of an alkaline assistant formed by sodium carbonate, potassium carbonate, sodium bicarbonate, potassium bicarbonate, ammonium bicarbonate and sodium hydroxide, carrying out reduced pressure rectification, refrigerating crystallization, vacuum filtration or centrifuging separation, solvent washing, and vacuum drying method sequentially to obtain a pentachloropyridine product with a mass percentage c

Abstract: A method for preparing pentachloropyridine by utilizing DCTF rectifying short steaming residues, comprising the following steps: converting polymers in the residues through in situ catalytic cracking and vacuum distillation by using the catalytic degradation function of a catalyst formed by aluminum oxide, silicon oxide, zirconia, 4A zeolite, magnesium oxide, mordenite and HZSM-5 zeolite on the polymers in the DCTF rectifying short steaming residues into small molecular compounds and obtaining pentachloropyridine-containing crude oil; washing the pentachloropyridine-containing crude oil by using an aqueous solution of an alkaline assistant formed by sodium carbonate, potassium carbonate, sodium bicarbonate, potassium bicarbonate, ammonium bicarbonate and sodium hydroxide, carrying out reduced pressure rectification, refrigerating crystallization, vacuum filtration or centrifuging separation, solvent washing, and vacuum drying method sequentially to obtain a pentachloropyridine product with a mass percentage c