Methods and apparatuses for reforming of hydrocarbons including recovery of products using an absorption zone
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C01B-003/34
C01B-003/52
C07C-007/00
출원번호
US-0524285
(2014-10-27)
등록번호
US-9670114
(2017-06-06)
발명자
/ 주소
Tsai, Robert Edison
Zhu, Xin X
Ngo, Tokhanh
Yanez, William
Glover, Bryan K.
출원인 / 주소
UOP LLC
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
Embodiments of apparatuses and methods for reforming of hydrocarbons including recovery of products are provided. In one example, a method comprises separating a reforming-zone effluent to form a net gas phase stream and a liquid phase hydrocarbon stream. The net gas phase stream is compressed, part
Embodiments of apparatuses and methods for reforming of hydrocarbons including recovery of products are provided. In one example, a method comprises separating a reforming-zone effluent to form a net gas phase stream and a liquid phase hydrocarbon stream. The net gas phase stream is compressed, partially condensed and cooled to form a partially condensed, compressed net gas phase stream. The partially condensed, compressed net gas phase stream is separated to form an intermediate gas phase stream. The intermediate gas phase stream is cooled to form a cooled intermediate gas phase stream. The liquid phase hydrocarbon stream is cooled to form a cooled liquid phase hydrocarbon stream. The cooled intermediate gas phase stream is contacted with the cooled liquid phase hydrocarbon stream to form an H2-rich stream and a cooled second intermediate liquid phase hydrocarbon stream that is enriched with C3/C4 hydrocarbons.
대표청구항▼
1. An apparatus for reforming of hydrocarbons including recovery of products, the apparatus comprising: a separation zone configured to receive and separate a reforming-zone effluent that comprises H2, C4− hydrocarbons, and C5+ hydrocarbons including aromatics to form a net gas phase stream that com
1. An apparatus for reforming of hydrocarbons including recovery of products, the apparatus comprising: a separation zone configured to receive and separate a reforming-zone effluent that comprises H2, C4− hydrocarbons, and C5+ hydrocarbons including aromatics to form a net gas phase stream that comprises H2 and C6− hydrocarbons and a liquid phase hydrocarbon stream that comprises C5+ hydrocarbons;a first compressor configured to receive and compress the net gas phase stream to form a compressed net gas phase stream;a first cooler configured to receive and partially condense and cool the compressed net gas phase stream to form a partially condensed, compressed net gas phase stream;a knockout drum configured to receive and separate the partially condensed, compressed net gas phase stream into an intermediate gas phase stream and a first intermediate liquid phase hydrocarbon stream;a first chiller section configured to receive and cool the intermediate gas phase stream to form a cooled intermediate gas phase stream;a second chiller section configured to receive and cool the liquid phase hydrocarbon stream to form a cooled liquid phase hydrocarbon stream; andan absorber in fluid communication with the first chiller section and the second chiller section to correspondingly receive the cooled intermediate gas phase stream and the cooled liquid phase hydrocarbon stream, wherein the absorber is configured for contacting the cooled intermediate gas phase stream with the cooled liquid phase hydrocarbon stream to extract C3/C4 hydrocarbons from the cooled intermediate gas phase stream to the cooled liquid phase hydrocarbon stream and to form an H2-rich stream and a cooled second intermediate liquid phase hydrocarbon stream that is enriched with C3/C4 hydrocarbons and further comprises C5+ hydrocarbons. 2. The apparatus of claim 1, wherein the separation zone is configured to receive the first intermediate liquid phase hydrocarbon stream as a recycle stream for further separation. 3. The apparatus of claim 1, further comprising: at least one heater, heat exchanger, or combinations thereof configured to receive and heat the cooled second intermediate liquid phase hydrocarbon stream to form a heated second intermediate liquid phase hydrocarbon stream;a stabilizer configured to receive and separate the heated second intermediate liquid phase hydrocarbon stream to form a C5+ hydrocarbon-rich reformate stream that comprises primarily C5+ hydrocarbons and a stabilizer gas stream that comprises H2 and C4− hydrocarbons; anda stabilizer gas separation zone configured to receive and partially condense and cool at least a portion of the stabilizer gas stream to form a partially condensed stabilizer net gas stream, wherein the stabilizer gas separation zone comprises: a separator configured to receive and separate the partially condensed stabilizer net gas stream to form a C3/C4 hydrocarbon-rich LPG stream that comprises primarily C3/C4 hydrocarbons and a light ends gas stream that comprises H2 and C2− hydrocarbons. 4. The apparatus of claim 3, wherein the stabilizer gas separation zone comprises at least one heat exchanger, chiller, cooler, or combination thereof configured to receive and partially condense and cool the at least the portion of the stabilizer gas stream to form the partially condensed stabilizer net gas stream. 5. The apparatus of claim 4, wherein the at least one heat exchanger, chiller, cooler, or combination thereof is a stabilizer gas separation zone heat exchanger configured for indirect heat exchange between the cooled second intermediate liquid phase hydrocarbon stream and the at least the portion of the stabilizer gas stream to form a partially heated, second intermediate liquid phase hydrocarbon stream and the partially condensed stabilizer net gas stream, respectively, wherein the at least one heater, heat exchanger, or combinations thereof comprises the stabilizer gas separation zone heat exchanger and at least one additional heater, heat exchanger, or combinations thereof that is configured to receive and heat the partially heated, second intermediate liquid phase hydrocarbon stream to form the heated second intermediate liquid phase hydrocarbon stream. 6. The apparatus of claim 5, further comprising: an absorption zone heat exchanger that is configured for indirect heat exchange between the intermediate gas phase stream and the partially heated, second intermediate liquid phase hydrocarbon stream to form a further partially cooled, compressed intermediate gas phase stream and a further partially heated, second intermediate liquid phase hydrocarbon stream, respectively, wherein the first chiller section is configured to receive and cool the further partially cooled, compressed intermediate gas phase stream to form the cooled intermediate gas phase stream; anda stabilizer heat exchanger that is configured for indirect heat exchange between the further partially heated, second intermediate liquid phase hydrocarbon stream and the C5+ hydrocarbon-rich reformate stream to form the heated second intermediate liquid phase hydrocarbon stream, wherein the at least one additional heater, heat exchanger, or combinations comprises the absorption zone heat exchanger and the stabilizer heat exchanger. 7. The apparatus of claim 4, wherein the stabilizer gas separation zone comprises a dryer that is upstream from the at least one heat exchanger, chiller, cooler, or combination and is configured to remove water from the portion of the stabilizer gas stream before the portion of the stabilizer gas stream is introduced to the at least one heat exchanger, chiller, cooler, or combination. 8. The apparatus of claim 1, further comprising a dryer that is upstream from the first chiller section and is configured to remove water from the intermediate gas phase stream before the intermediate gas phase stream is introduced to the first chiller section. 9. The apparatus of claim 1, further comprising: a second compressor configured to receive and compress the intermediate gas phase stream to form a compressed intermediate gas phase stream; anda second cooler configured to receive and partially cool the compressed intermediate gas phase stream to form a partially cooled, compressed intermediate gas phase stream, wherein the first chiller section is configured to receive and cool the partially cooled, compressed intermediate gas phase stream to form the cooled intermediate gas phase stream. 10. The apparatus of claim 9, further comprising a heat exchanger for indirect heat exchange between the partially cooled, compressed intermediate gas phase stream and the H2-rich stream to form a further partially cooled, compressed intermediate gas phase stream, wherein the first chiller section is configured to receive and cool the further partially cooled, compressed intermediate gas phase stream to form the cooled intermediate gas phase stream.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (15)
Wood Glenn C. (Houston TX) Mehra Yuv R. (The Woodlands TX), Absorption process without external solvent.
Turner Robert B. (Schaumburg IL) Peters Kenneth D. (Elmhurst IL) Bennett Richard W. (Western Springs IL), Hydrocarbon-conversion process with fractionator overhead vapor recycle.
Doshi Kishore J. (Somers NY) Mitariten Michael J. (Peekskill NY) Whysall Michael (Wilrijk BEX), Integrated thermal swing-pressure swing adsorption process for hydrogen and hydrocarbon recovery.
Maurer Richard T. (Nanuet NY) Mitariten Michael J. (Peekskill NY) Weigand Roger J. (Croton On Hudson NY) Whysall Michael (Wilrijk BEX), PSA process for improving the purity of hydrogen gas and recovery of liquefiable hydrocarbons from hydrocarbonaceous eff.
Pappas Scott W. (Crystal Lake IL) Felch Donald E. (Arlington Heights IL), Process for purifying a hydrogen gas and recovering liquifiable hydrocarbons from hydrocarbonaceous effluent streams.
DeGraff Richard R. (Deerfield IL) Peters Kenneth D. (Elmhurst IL), Recovery of C3+hydrocarbon conversion products and net excess hydrogen in a catalytic reforming process
상세보기
Kaaeid A. Lokhandwala ; Richard W. Baker, Refinery process including membrane separation.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.