Two-stage catalytic cracking V. I. MarkhevkaV. A. StankevichYu. S. Kogan Manufacturing Processes Pages: 477 - 482
Heat balance of commercial catalytic cracking units B. M. ZhitomirskiiE. A. KlimtsevaV. A. Stankevich Manufacturing Processes Pages: 483 - 485
Catalytic cracking of mixed feeds D. M. SoskindN. N. SamoilovaT. V. Kuznetsova Manufacturing Processes Pages: 486 - 488
Calculation of aromatics content of light catalytic gasoil A. P. BocharovYu. N. ZelentsovS. S. Guseva Manufacturing Processes Pages: 488 - 490
New microbead cracking catalysts B. K. NefedovT. Kh. Melik-AkhnazarovL. M. Il'ina Manufacturing Processes Pages: 491 - 493
Increasing the resistance of cracking catalysts to poisoning by metals É. A. KarakhanovA. A. BratkovS. V. Lysenko Manufacturing Processes Pages: 493 - 495
Procedure for testing CO oxidation promoters in laboratory units M. N. PervushinaB. Z. SolyarR. R. Aliev Manufacturing Processes Pages: 495 - 497
Test of a CO oxidation promoter in semicommercial catalytic cracking unit T. Kh. Melik-AkhnazarovV. A. StankevichYu. D. Zabegalov Manufacturing Processes Pages: 498 - 501
Reducing the consumption of microbead cracking catalyst S. N. KhadzhievI. B. RivkinzonB. I. Zyuba Manufacturing Processes Pages: 501 - 503
New trends in the improvement of cyclones I. B. RivkinzonB. I. Zyuba Manufacturing Processes Pages: 504 - 508
Dynamic modeling of catalyst consumption in catalytic cracking I. B. RivkinzonV. V. Cheremin Manufacturing Processes Pages: 508 - 511
Investigation of dust collection systems in commercial catalytic cracking units I. B. RivkinzonV. V. ChereminM. A. Savel'ev Manufacturing Processes Pages: 511 - 515