PLANT FOR HYDROCARBON CONVERSION INCLUDING REACTION ZONE WITH DELIVERY OF TRANSPORTED CATALYST TO SUCH ZONE Russian patent published in 2013 - IPC C10G35/12 C10G35/14 C10G35/22 C10G63/02 B01J38/00 

Abstract RU 2490312 C2

FIELD: oil and gas industry.

SUBSTANCE: invention is related to plant for hydrocarbon conversion including reaction zone with delivery of transported catalyst to such zone. The plant for hydrocarbon (400, 500, 600) conversion contains the following: a) vessel for regeneration; b) device with vessel for delivery that ensures delivery of catalyst from low pressure zone to high pressure zone; at that this device contains the first pipeline for catalyst transportation into the vessel for delivery and in this connection the first pipeline is connected to the first valve delivering catalyst into the vessel for delivery; the second pipeline for catalyst transportation from the vessel for delivery, at that the second pipeline is connected to the second valve in order to ensure catalyst diversion from the vessel for delivery; and the third pipeline providing passage of gas through it at pressure higher than the first pressure; this pipeline has the first section communicating with the vessel for delivery and the second section connected to the third and fourth valves. Each of the third and forth valve has the first position which is an open position and the second position, which is a closed one, and it corresponds opening and closure of the first and second valves in order to ensure passage of gas. At that the first section of the third pipeline is connected to the second section between the third and fourth valves and one end of the second section is connected to the pipeline in order to outlet gas from the vessel for storage; c) reaction zone; at that the device that ensures delivery of catalyst from low pressure zone to high pressure zone is installed vertically in essence towards the reaction zone to ensure passage of the regenerated catalyst from the above device into the reaction zone by transportation by means of gravity.

EFFECT: implementation of conversion process.

9 cl, 5 dwg

Similar patents RU2490312C2

Title Year Author Number
METHOD OF TRANSPORTING SOLID PARTICLES FROM ZONE AT ONE PRESSURE VALUE TO ZONE AT ANOTHER PRESSURE VALUE 2008
  • Fekto Dejvid Dzh.
  • Naunkhajmer Kristofer
RU2430143C1
METHOD OF INCREASING MOLECULAR WEIGHT OF OLEFINS AND APPARATUS FOR REALISING SAID METHOD 2011
  • Da Silva Ferrejra Alvehs Zhuan Zhorzhi
  • Rikosk Dzhejms Eh.
  • Nikolas Kristofer P.
RU2525113C2
METHOD AND INSTALLATION OF FLUID CATALYTIC CRACKING FOR MAXIMUM INCREASE IN YIELD OF LIGHT OLEFINS AND OTHER APPLICATIONS 2020
  • Chen, Liang
  • Loezos, Peter
  • Marri, Rama, Rao
  • Tomsula, Bryan
  • Hood, Jon, A.
  • Singh, Hardik
  • Dorsey, Michael
  • Breckenridge, Justin
RU2811472C2
CATALYTIC REFORMING UNIT WITH CONTINUOUS REGENERATION OF CATALYST 2019
  • Lebedskoj-Tambiev Mikhail Andreevich
  • Kalabin Dmitrij Aleksandrovich
  • Ermolenko Alla Dmitrievna
  • Shishkin Sergej Nikolaevich
  • Yablokov Aleksej Sergeevich
  • Aleksandrov Denis Sergeevich
  • Dyachenko Konstantin Vasilevich
  • Voronina Yuliya Vadimovna
  • Chulkov Konstantin Sergeevich
  • Chernenko Aleksandr Alekseevich
  • Zavyalova Natalya Nikolaevna
  • Khanova Nataliya Gennadievna
RU2727887C1
DEVICE FOR TRANSPORTATION OF DISCRETE MATERIAL AND METHOD OF CATALYTIC REFORMING (VERSIONS) 1996
  • Miklich Frank T.
RU2174145C2
METHOD AND INSTALLATION FOR FLUID CATALYTIC CRACKING 2013
  • Palmas Paolo
RU2581370C1
METHOD AND DEVICE FOR REDUCTION OF BENZOL CONTENT IN BENZINE IN ALKYLATION WITH DILUTED ETHYLENE 2011
  • Nikolas Kristofer P.
  • Bkhattachariija Alakananda
RU2505515C1
METHOD OF CONVERTING HYDROCARBON STREAM AND, OPTIONALLY, OBTAINING PROCESSED DISTILLATE PRODUCT 2013
  • Sehdler Klejton K.
  • Gozling Kristofer D.
RU2565048C1
METHOD FOR CATALYTIC REFORMING WITH CONTINUOUS CATALYST REGENERATION 2020
  • Lebedskoj-Tambiev Mikhail Andreevich
  • Kalabin Dmitrij Aleksandrovich
  • Ermolenko Alla Dmitrievna
  • Shishkin Sergej Nikolaevich
  • Yablokov Aleksej Sergeevich
  • Aleksandrov Denis Sergeevich
  • Dyachenko Konstantin Vasilevich
  • Shamara Aleksej Alekseevich
  • Shamara Yurij Alekseevich
  • Shakun Aleksandr Nikitovich
  • Fedorova Marina Leonidovna
  • Karpenko Timofej Vladimirovich
RU2747527C1
METHOD OF OLIGOMERIZATION OF PETROL WITHOUT ADDITIONAL REFINING 2013
  • Nikolas Kristofer P.
  • Frit Kristian D.
  • Krupa Stiven L.
  • Vanden Bushe Kurt M.
  • Kruze Tod M.
RU2639160C2

RU 2 490 312 C2

Authors

Fekto Dejvid Dzh.

Sekrist Pol A.

Naunkhajmer Kristofer

Dates

2013-08-20Published

2008-07-16Filed