spring 2019 - anandbharti.co.inanandbharti.co.in/pre/l32.pdf · the uop parex process is an...
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SPRING 2019
CL 4003 PETROCHEMICALS AND REFINERY ENGINEERING
Lecture 32
Department of Chemical Engineering
Birla Institute of Technology Mesra, Ranchi1
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Integrated UOP aromatics complex
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UOP TATORAY PROCESS
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✓ The Tatoray process provides an ideal way of producing
additional mixed xylenes from low-value toluene and heavy
aromatics.
✓ The incorporation of a Tatoray unit to an aromatics complex
can double the yield of PX from naphtha feedstock.
✓ The two major reactions in the Tatoray process:
disproportionation and transalkylation.
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TATORAY PROCESS
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✓ The conversion of toluene alone to an equilibrium mixture of
benzene and xylenes is called disproportionation.
✓ The conversion of a blend of toluene and A9 to xylenes is called
transalkylation.
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TATORAY PROCESS
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Major Tatoray reactions
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UOP PAREX PROCESS
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✓ The UOP Parex process is an innovative adsorptive separation
method for the recovery of para-xylene from mixed xylenes.
✓ The term mixed xylenes refers to a mixture of C8 aromatic
isomers that includes ethylbenzene, para-xylene, meta-xylene,
and ortho-xylene.
✓ These isomers boil so closely together that separating them by
conventional distillation is not practical.
✓ The Parex process provides an efficient means of recovering
para-xylene by using a solid zeolitic adsorbent that is selective
for para-xylene. 8
PAREX PROCESS
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✓ UOP Parex units are designed to recover more than 97 wt % of
the para-xylene from the feed in a single pass at a product
purity of 99.9 wt % or better.
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PAREX PROCESS
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UOP ISOMAR PROCESS
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✓ The UOP Isomar process is used to maximize the recovery of a
particular xylene isomer from a mixture of C8 aromatic
isomers. The Isomar process is most often applied to para-
xylene recovery, but it can be used to maximize the recovery of
ortho-xylene or meta-xylene.
✓ The term mixed xylenes is used to describe a mixture of C8
aromatic isomers para-xylene, ortho-xylene, meta-xylene, and
ethylbenzene (EB).
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ISOMAR PROCESS
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✓ In the case of para-xylene recovery, a mixed-xylenes feed is
charged to a UOP Parex unit where the para-xylene isomer is
preferentially extracted at 99.9 wt% purity.
✓ The Parex raffinate is almost entirely depleted of para-xylene
and is sent to the Isomar unit.
✓ The Isomar unit essentially create additional paraxylene from
the remaining ortho and meta isomers. Effluent from the Isomar
unit is then recycled to the Parex unit for recovery of additional
para-xylene.
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ISOMAR PROCESS
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✓ The two main categories of xylene isomerization catalysts are
dealkylation (ethyl benzene) catalysts and isomerization
catalysts.
✓ Dealkylation catalyst converts EB to a valuable benzene
coproduct. An EB isomerization catalyst converts EB to
additional xylenes.
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ISOMAR PROCESS
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ISOMAR PROCESS
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Typical Parex-Isomar loop
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Pyrolysis gasolines
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✓ Pyrolysis gasoline (PyGas) is a by-product of high temperature
naphtha cracking during ethylene and propylene production.
✓ It is a mixture of highly unsaturated hydrocarbons ranging from
C5s to C12s. PyGas contains considerable amounts of
aromatics, normally 40-80% (benzene, toluene and xylene),
together with paraffins, olefins and diolefins. Composition of the
PyGas produced depends on the feedstock and operating
conditions and varies from plant to plant.
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INTRODUCTION
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✓ Ethylene and propylene are produced commercially by steam
cracking of a wide range of hydrocarbon feedstocks.
Consequently, a significant amount of PyGas is produced, as it
is a major by-product of these plants. The production of PyGas
is generally about 20-30% when naphtha is used as a feedstock.
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INTRODUCTION
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Typical compositions of C5-gasoline and aromatic cuts
produced by naphtha steam cracking
Components C5-gasoline C6-200 °C cut C6-C8 cut
Paraffins & Naphthenes 11.8 7.8 9.7
Olefins 5.5 2.4 3.0
Diolefins 18.1 8.7 5.9
Aromatics
Benzene 28.0 35.2 43.7
Toluene 13.9 17.4 21.7
C8 7.2 9.0 11.3
Alkenylbenzene 3.0 3.8 4.7
C9- 12.5 15.7 -
Total aromatics 64.6 81.1 81.4
Sulfur content (ppm) 220 180 150
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There are two main routes to utilise the PyGas produced to provide
useful products:
✓ PyGas contains a large quantity of aromatic (BTX) and aliphatic
hydrocarbons and therefore can be used as a gasoline pool due
its high octane number.
✓ The high content of aromatics present in PyGas makes it a good
potential feedstock for aromatics extraction.
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INTRODUCTION
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✓ As may be observed from the table, these cuts contain
significant amount of olefins, diolefins and alkenylaromatics,
which make them unsuitable for direct use as a gasoline. These
unstable compounds cause gumming in motors and therefore
must be removed.
✓ During storage, olefins, diolefins and alkenylaromatics present
in gasoline react with absorbed atmospheric oxygen and with
each other, forming resinous, polymeric, and non-volatile
materials with a high molar mass that are commonly called
gum. 21
INTRODUCTION
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INTRODUCTION
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✓ When olefins and diolefins are in contact with dissolved oxygen,
reactions can occur which lead to fouling in process units.
✓ Hydroperoxides, the immediate products of reaction of oxygen
and hydrocarbons, undergo reactions leading directly to
insoluble oxidized species, or in parallel reactions, to dissolved
oxidized species which then convert to insolubles.
✓ Oxidation products include species such as peroxides,
aldehydes, acids, and ketones, as well as components with
molecular mass 200-600 g/mol, referred to as gum.
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INTRODUCTION
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✓ The nucleation or agglomeration of the insoluble oxidized
products, may occur in the bulk fluid, or on the surface of the
heat exchanger.
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INTRODUCTION
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✓ The gum formed in gasoline during storage, leads to formation
of deposits in carburettor, fuel injectors, intake manifold, on
intake ports and intake valves, and in the combustion chamber.
The gums clog fuel metering orifices, result in sticking of intake
valves and form carbon deposits in the combustion chamber.
Deposit formation in fuel system and combustion chamber lead
to loss in fuel efficiency and increase in carbon monoxide and
unburned hydrocarbon emissions.
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INTRODUCTION
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✓ The formation of deposits in the combustion chamber increases
the effective engine compression ratio. The combustion chamber
deposits can increase HC and NOx emissions by up to 10 to
15%.
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INTRODUCTION
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On account of excessive instability, dienic compounds can not be
eliminated at the same time as olefins and sulfur compounds. Two
successive operations are therefore necessary in this case:
(a) Selective hydrogenation of diolefins, also called
hydrodedienization of first step hydrogenation.
(b) Fairly severe hydrotreating to convert nearly all the sulfur
compounds, but sufficiently selective to avoid significantly
hydrogenating the aromatics; this is hydrodesulfurization, also
called second step hydrogenation.
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Pyrolysis gasoline hydrotreating
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Hydrogenation of pyrolysis gasoline (C5-C9 cut)
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Hydrogenation of pyrolysis gasoline (C6-C8 cut)
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Hydrogenation of pyrolysis C6-C8 cut
Composition cut Crude cut Dedienized
cut
Dedienized &
desulfurized
cut
Diolefins and styrene 10.6 0.3 0
Olefins 3.0 2.4 0
Benzene 43.7 43.7 43.6
Toluene 21.7 21.7 21.5
Xylenes &
ethylbenzene
11.3 11.3 11.3
Total sulfur ppm 150 145 0.5
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