Revamp Distillation
Revamp Distillation
Optimize Distillation
System Revamps
   Revamping can
    improve most
                                  D           inant separation technique in
                                              the chemical process industries
                                              (CPI), accounting for more
                                  than 90% of product recovery and purifi-
                                  cation applications. Its use spans the en-
                                                                                                                   • eliminating operational bottlenecks
                                                                                                               and increasing capacity;
                                                                                                                   • implementing a new process or
                                                                                                               product within existing equipment;
                                                                                                                   • enhancing product purity, thereby
  existing columns                tire CPI, from massive continuous chemi-                                     creating possible new markets for an ex-
                                  cal and petroleum complexes to small                                         isting product;
     and, indeed,                 batch facilities manufacturing specialty                                         • boosting product or raw-material
                                  chemicals such as materials additives,                                       recovery;
provides one of the               pigments, paints, inks, pharmaceuticals,                                         • purifying raw materials;
                                  flavors, and fragrances. With more than                                          • reducing waste-disposal quantities;
 most economically                40,000 distillation columns in operation                                     and
                                  in the U.S., the capital investment in-                                          • removing and capturing materials
 attractive opportu-              volved exceeds $8 billion (1).                                               from water and air waste streams.
                                      Though revamping of distillation sys-                                        Even though these factors make re-
 nities available in              tems is not a new concept, it is assuming                                    vamping a worthwhile endeavor, the dis-
                                  greater importance today. Many compa-                                        tillation process sometimes is not consid-
process engineering               nies now are trying to maximize their re-                                    ered a part of the primary production line
   today. Use this                turn from existing sites, rather than in-                                    but instead a low-priority support opera-
                                  vesting in new grassroots facilities. Plus,                                  tion. Consequently, too often, it does not
   proven strategy                the opportunities for column revamping
                                  abound: An increasing number of distil-
                                                                                                               receive the emphasis and attention it
                                                                                                               deserves.
      to find the                 lation systems are required to process
                                  variable-feed-composition streams and
                                                                                                                   Distillation for recovery of solvent or
                                                                                                               unreacted raw materials also typically is
 most-cost-effective              to meet more-stringent product and                                           considered a lesser operation than prod-
                                  byproduct specifications. Many batch                                         uct recovery. For such “secondary” oper-
        option.                   systems are operated in campaigns,                                           ations and within smaller facilities, finan-
                                  which may make additional demands as                                         cial constraints can be particularly sensi-
                                  the feed components and composition                                          tive, especially if it is assumed (mistaken-
       John A. Williams,
                                  are perpetually changing. Improving the                                      ly) that revamping the distillation column
   Environmental & Production
                                  performance of such processes promises                                       will be prohibitively expensive.
          Solutions, LLC
                                  a high economic return. In fact, for most
                                  distillation systems currently in opera-                                     Consider a real revamp
                                  tion, a revamp may provide significant                                          Many companies don’t actually assess
                                  improvements in the competitive posi-                                        the revamping of an existing unit — not
                                  tion of the process.                                                         realizing that a high economic return usu-
                                      Revamping opportunities are present                                      ally is easily achievable with a well de-
                                  in most existing distillation systems, with                                  signed and executed revamp. Instead, the
CHEMICAL ENGINEERING PROGRESS • MARCH 1998   ©Copyright   1998 American Institute of Chemical Engineers. All rights reserved. Copying and downloading permitted with restrictions.
D I S T I L L AT I O N R E VA M P S
traditional “revamping” approach                4. How to analyze the economic          identify whether existing equip-
often taken is to design and build a         impact;                                    ment, instrumentation, and controls
new column, rather than to work                 In addition, we will provide case       actually may have the potential to
within the confines of the existing          histories of distillation system re-       achieve the necessary results with
unit. This may involve lower risk, but       vamps to illustrate the value of the       only minimal modifications. All
it almost always is more costly in           approach.                                  process and instrumentation dia-
terms of capital investment (including          In short, this article will provide     grams (P&IDs) and controls should
for equipment that a well-designed           an overview of all the factors that        be personally field-verified. In
revamp may obviate) and lost pro-            must be considered when evaluating         short, field assessment is not only
duction due to downtime.                     a possible distillation-system revamp.     an excellent method for understand-
    The reasons why improvement of           Though the recommended approach            ing current operations and problems,
existing equipment doesn’t get the em-       involves more upfront effort by the        but also is a cost-control measure
phasis it deserves are many and varied       production engineer, it will identify      that may save a company from pur-
— but they generally boil down to a          the most economical way to achieve         suing unnecessary expenditures.
lack of solid understanding of what          operational objectives.                        Visual inspection — If the time
can be accomplished and a lack of re-                                                   frame of the project allows, visually
alistic analysis of capital requirements.    HOW TO ACHIEVE                             inspect the column internals by ob-
Yet, to reiterate, revamping usually is      A SUCCESSFUL REVAMP                        serving the operation through the ac-
the most cost-effective solution.               One of the main issues involved in      cessways or handholes. Look for in-
    Revamps afford the opportunity to        revamping a distillation system is de-     ternals that may have been displaced
take advantage of the significant            termining what must be done to effect      or those that have become mis-
progress recently made in distillation       an economic gain for the plant. We’ll      aligned over time. Also, check for
systems. Such developments include           outline several steps that can serve as    plugging within the column, as well
the commercialization of higher-effi-        a guide.                                   as deformation or any signs of exces-
ciency trays and packings that                                                          sive wear of packing material or dis-
promise high economic returns.               Define system objectives                   tributors. Surfaces that have become
Today’s high-performance mass-                  The first step is to define the de-     fouled or show stress cracking or dis-
transfer internals offer dramatically        sired objectives of a revamp. Infor-       coloration may indicate such prob-
reduced column pressure drops and            mation must be gathered relating to        lems as poor wetting, pressure surges
increased turndown ratios — en-              the processing requirements, includ-       during operation, or excessive flash-
abling operation over a wider range          ing determining the full range of po-      ing near the reboiler discharge. Addi-
of high and low liquid-flow loadings         tential feedstock compositions and         tionally, if column performance has
— than was previously possible.              stream conditions. It also is helpful to   declined over time and signs of mate-
    The purpose of this article is to        note how many product lines are            rials corrosion are apparent, consult a
show production and process engi-            campaigned upstream of the distilla-       metallurgist. A competent metallur-
neers how to determine, given their          tion system. The desired minimum           gist can assess the impacts of the cur-
particular objectives, whether or not        and maximum processing capacity            rent corrosion and specify either op-
revamping is a viable option. It intro-      also must be defined, as well as the       erational conditions less corrosive to
duces an approach that can be applied        product composition wanted (both the       the existing materials or materials
regardless of scale of operation or          minimum acceptable and “ideal”). It        that offer a higher degree of corro-
type of product. We will not get into        also may be necessary to specify           sion resistance.
specific design practices, which can         other product attributes such as color         Radioactive tools — Three estab-
be found in several excellent theoreti-      and clarity. A report of the product       lished column on-line diagnostic
cal and practical texts such as Refs.        specifications and distillation system     tools involving the use of radioiso-
2–8. Instead, we will outline the            requirements should be confirmed           topes — grid scanning, radioactive
following:                                   with the organization’s Marketing          tracing, and computer-assisted to-
    1. How to achieve a successful           Product Manager and the Production         mography (CAT scans) — can be
revamp;                                      Manager, respectively.                     useful in assessing the hydrodynam-
    2. How to factor in environmental                                                   ics of the column under existing oper-
issues;                                      Evaluate existing operations               ational conditions. The internals defi-
    3. How to develop the right strate-         The next step is to assess how the      ciencies identified then can be ad-
gy — including assessing the desired         existing distillation system works.        dressed in the revamping design.
operating conditions, finalizing de-         On-site observations are crucial to            Grid scanning basically is a mea-
sign parameters, and selecting the           the understanding of the current sys-      surement of the column cross-sec-
proper equipment; and                        tem’s operation — they often can           tional density profile via a series of
Use computer simulations                     developed, empiricism will continue          The two predominant process-
— wisely                                     to predominate in the calculation or      stream materials that cause the most
    Computer simulators are readily          assignment of stage efficiencies. Once    environmental concern are: (1) “still
available and are computationally ac-        an internals type is selected, you are    bottoms,” which often consist of
curate — making it easy to quickly           well advised to work closely with the     tarry residues that frequently con-
simulate the full range of potential         internals vendor to determine the         tain a multitude of molecular
operating conditions. The majority of        achievable stage efficiencies for a       species and exhibit high viscosity at
simulators employ an equilibrium-            given design. In practice, stage effi-    ambient temperatures; and (2) high-
stage approach, based on vapor/liquid        ciencies frequently are assigned based    vapor-pressure materials (material
equilibrium (VLE) data, and model            on the operation of similar systems of    losses), which may slip through
steady-state operations. Batch and           components and internals.                 condensers into vacuum systems or
dynamic simulators also are avail-              Whatever methods of modeling are       become fugitive emissions through
able. Process simulation packages are        used, perform simple checks on the        leaks in flanges and other equipment
offered by, among others, Aspen,             simulation output to see if the simula-   connections.
Chemstations, Hyprotech, and Simu-           tion reflects real-world operation:
lation Sciences.                                • Assess the simulator results (out-   Reduce the amount
    The key to an accurate simulation,       put) against those obtained from a        of still bottoms
especially with respect to the number        McCabe-Theile diagram.                        Still-bottoms or tarry-material
of equilibrium stages, is accurate VLE          • Compare the output against data      formation frequently is caused by
data. Most commercially available            from the original startup and the cur-    byproduct formation in the reactor
simulators come with libraries of VLE        rent operation.                           and, if conditions permit, in the still.
data. Look also for in-house VLE data           More details on how to make sure       Distillation systems used to process
that may have been generated with pre-       that you have a realistic and reliable    effluents from more than one pro-
vious distillation designs for the com-      simulation are given by Kister (18).      duction line often are particularly
ponents within the system. Literature           Using the process simulator, you       susceptible to tar-forming reactions.
sources for VLE data include AIChE’s         should do a methodical sensitivity        An additional problem with still bot-
Design Institute for Physical Property       study covering the full range of feed     toms involves disposal. The pres-
Data (11), DECHEMA’s Chemistry               and operating conditions and product      ence of such high-molecular-weight
Data Series: Vapor-Liquid Equilibrium        specifications. This allows you: (1) to   products in the waste often results in
Collection (12), and publications by         determine what is achievable in the       additional waste, as processors try to
Hala and coworkers (13,14). VLE data         existing equipment, and how the con-      manage their flow by: (1) controlling
also can be measured for the compo-          trols and the control algorithms may      the discharge composition to include
nents under investigation and obtained       need to be modified to achieve the        lighter components, such as process
from contract research laboratories for      target conditions; and (2) to begin to    solvent; or (2) keeping the flow high
a fee. As a last resort, if actual VLE       determine what a revamped system          or the outlet orifice larger than nec-
data are not available and measure-          would be capable of achieving.            essary to avoid any chance of plug-
ment is impractical, a predictive model                                                ging. Losses also occur when opera-
such as the UNIFAC group contribu-           HOW TO ASSESS                             tors handle the high-viscosity mate-
tion method and its extensions (Sher-        ENVIRONMENTAL ISSUES                      rial by diluting it with valuable sol-
wood and coworkers (15)) can be used,           Process wastes and emissions can       vents or raw materials.
but only with extreme caution. Carlson       have a major economic impact on               For distillation yield maximization
(16) provides a decision-based ap-           distillation systems. Therefore, any      and waste minimization, it is neces-
proach for evaluating physical-proper-       revamping strategy needs to assess        sary to obtain as much knowledge as
ty parameters for successful process         environmental gains and losses. First,    possible about any potential (ongo-
simulations.                                 identify what is causing the solid or     ing) chemistry occurring in the still or
    Despite the precision of simulators      liquid waste components in the cur-       upstream that leads to tarry materials
in calculating the number of equilibri-      rent system. Determine if there are air   and their composition in the distilla-
um stages, translating theoretical to        or water emissions from the system,       tion feed. Because there may be no
real stages remains an inexact predic-       and whether they are fugitive or con-     documented research or history of the
tive art based on empirical correlations     tained within the process streams.        still’s chemistry, the only alternative
such as the Murphree tray efficiency         Also, ascertain where the emissions       may be to pinpoint as closely as pos-
(17). Further, each internals type, size,    are escaping — that is, into the vacu-    sible the chemistry of the tar forma-
and configuration exhibits different         um system, the cooling water              tion and its location. Pay particular
hydrodynamics, and, until detailed un-       streams, through the piping flanges,      attention to additional chemistry that
derstanding of the hydrodynamics is          or somewhere else.                        may be occurring in multicomponent
Conduct field trials                         mass balance calculations and com-             There are, as we’ll discuss, some
    At this point, your knowledge            putational modeling, and provide an         general differences in performance be-
level and revamping strategy should          assessment of the actual number of          tween trays and packings, and these
be at least 90% complete. Running            separation stages — that is, the stage      can serve as a guide for preliminary
tests now with the existing equipment        efficiency.                                 selection. The final comparison, how-
should verify the strategy, while pro-           The goal, throughout the field trial,   ever, should be between optimum
viding the final assessment of the ex-       is to clarify and confirm the three         trayed-column and packed-column de-
isting equipment under the proposed          fundamental questions for the column        signs. The optimal tray design is one
conditions. Prior to the field trial, fin-   revamp, specifically:                       that balances bubble and downcomer
ish any remaining mass- and heat bal-            1. What are the required hydrody-       areas so that neither becomes a capaci-
ances and system productivity-rate           namics to achieve efficient phase           ty pinch. Such a design then will max-
calculations. Throughout the field           contact?                                    imize the fractionation efficiency and
trial, the data logging should include           2. What are the number of stages        column capacity by specification of
a continuous assessment of how close         necessary for the separation, based on      weir height and geometry, downcomer
the system is running to the target          the equilibrium thermodynamics of           clearance, and the fractional hole area.
conditions; this is critical for deter-      this distillation system?                   Similarly, an optimal packed-column
mining what modifications are re-                3. What precautions, such as the        design is one that properly incorpo-
quired to achieve desired operation.         avoidance of plugging, fouling, or the      rates liquid and vapor distributors,
Hanson and coworkers provide a               like, are needed for system reliability?    packing type and size, and supports to
summary of preparation procedures                At the conclusion of the field trial,   avoid or minimize adverse liquid and
prior to a distillation test run (19).       the revamping strategy should be            vapor maldistribution.
    The field trial should strive to sim-    nearing completion. You should have
ulate the full range and combinations        determined the operational mode and         Choose the right internal
of parameters including feed, liquid,        sequence, as well as conditions con-            The goal in selecting internals is to
vapor, boilup and reflux rates; tem-         ducive for acceptable hydrodynamics,        come up with a configuration that
perature and pressure profiles; and          startup and shutdown procedures, and        maintains effective vapor/liquid con-
the startup and shutdown procedures.         the instrumentation and the process         tact over the desired operating condi-
If the revamping strategy involves a         control algorithm.                          tions, while minimizing pressure
change of operational mode — for in-             With this critical information, you     drop, liquid entrainment, weeping,
stance, from batch to semicontinuous         now can turn to selection of the spe-       corrosion, and fouling or plugging. At
operation — the trials may require           cific internals.                            this point, it should be clear that col-
extensive manual control to achieve                                                      umn capacity is largely determined
the operational sequence. Limitations        Start with                                  by column diameter, specifically its
of the system should be identified and       the existing internals                      ability to handle the desired liquid
explicitly assessed.                            Retrofitting better internals into an    and vapor flow rates without inducing
    The hydrodynamics, both liquid           existing column can readily provide         adverse flooding. Groups, including
and vapor, of column internals should        increases in capacity and fractiona-        Fractionation Research, Inc. (Stillwa-
be evaluated at the projected typical,       tion capability. Such a revamp isn’t        ter, OK), and the Separations Re-
minimum, and maximum flow rates,             always needed, however. At times,           search Program at the University of
and at the minimum and maximum               performance of existing internals can       Texas at Austin, have performed fun-
achievable reflux rates. This requires       be improved significantly by under-         damental research on system parame-
that close attention is maintained to all    standing their inherent limitations and     ters that affect internals selection.
system indicators such as temperature        modifying the operation to overcome             In general, most columns less than
and pressure profiles, flows, and re-        these limitations.                          36 in. dia. tend to favor packing, ei-
boiler and condenser operation. Signs           No one internals type, be it trays,      ther structured or random. Beyond the
of liquid entrainment (jet flooding),        structured packing, or random pack-         general 36-in.-dia. division, the di-
liquid flooding, and liquid or vapor         ing, is superior to the others in all       mensionless flow parameter, FP, can
maldistribution — and corresponding          applications; indeed, all can be            aid in selecting column internals type.
losses in the separating efficiency —        made to fractionate the same chemi-         The flow parameter is the ratio of the
should be monitored constantly.              cal systems. Therefore, it behooves         square roots of the kinetic energy of
    As the distillation progresses, get a    the revamping engineer to under-            the liquid to the kinetic energy of the
compositional analysis of the feed,          stand what the existing internals           vapor — that is, in mass units:
bottoms, overheads, and, if available,       configuration can and can’t accom-              FP = (L/V)(ρV/ρL)1                (1)
intermediate stage(s) within the col-        plish before opting to retrofit a new       For optimized, modern 24-in.-spaced
umn. This analysis will refine the           set of internals.                           trays, 2–21-in.-nominal-dia. packing,
existing steam-jet vacuum with a vac-           By using the single solvent, the       the lightest components into the sal-
uum pump system having a refriger-           distillation was converted from a         able component also was occurring,
ant-based condenser system. This             batch operation to a semicontinuous       and the true distillation yields were
proposed revamp would have cost in           one, which achieved several objec-        unknown.
excess of $2,000,000. It, however,           tives for the revamp. The first was in-       To achieve the desired distillate
would not have solved the product            creased solvent recovery, which en-       purity, the design engineers analyzed
quality issue, improved the environ-         abled the plant to process consider-      the system and developed two re-
mental aspects of the process, or re-        ably higher quantities. Final product     vamping proposals. One involved re-
duced the disposal costs.                    purity also was greatly improved due      placing the batch still with a thin
    Through careful analysis using the       to better purity of the solvent. Addi-    film evaporator and a three-column
approach discussed in this article, the      tionally, because the distillation bot-   distillation train including con-
revamping engineers came up with a           toms’ concentration and viscosity         densers, reboilers, accumulators,
far better alternative.                      were controllable, the company was        pumps, and controls. The second de-
    By identifying what the problems         able to pump the bottoms to the boil-     sign retained the existing still, fol-
were upstream, the engineers more            er house for reliable on-site destruc-    lowed by a three-column distillation
realistically determined what would          tion, which was significantly less ex-    train and its associated equipment
make the most sense in the distilla-         pensive (and more politically correct)    and controls. Either design would
tion process. The challenges to the          than shipping it off-site.                have required a capital expenditure
distillation included wide variations           In summary, a costly revamp was        in excess of $1,000,000.
in the feed to the still due to inconsis-    avoided by understanding the limita-          Fortunately, the approach dis-
tencies among reaction endpoints.            tions of the existing distillation sys-   cussed in this article then was used.
This became the focus of a short-term        tem, modifying the upstream process,      On-site analysis identified several
process-development project. It led to       converting the operational mode, ad-      problems within the existing opera-
alteration in the reaction conditions        dressing the environmental concerns,      tion. One of the key trouble areas was
and conversion of the reaction and           and then retrofitting only a minimal      that liquid maldistribution frequently
separation process from a three com-         amount of equipment.                      occurred throughout the batch distil-
ponent system to a two component                                                       lation process, impeding fractiona-
one employing the same lower-                Pharmaceutical intermediate               tion. The existing column was operat-
volatility solvent for both the reaction     purification                              ed on a variable reflux algorithm; the
and separation.                                 Company Y needed to revamp a           equipment, however, had been over-
    Laboratory distillation deter-           batch distillation operation to meet      sized to the point that adequate liquid
mined that the reaction byproducts           customer requirements for purity of a     distribution was maintained only at
were extremely viscous, reaching             particular pharmaceutical intermedi-      higher reflux rates. The control algo-
more than 1,000 cP at room tempera-          ate. The existing column contained        rithm and the structured packing in-
ture, and that a stagnant reboiler           structured packing with four receivers    ternals, coupled with the batch opera-
mixture exhibited detrimental foam-          in parallel and had variable reflux       tion mode, also restricted the produc-
ing characteristics. In the laboratory,      control based on single-loop con-         tivity in the larger fraction cuts (the
the solvent in the still bottoms could       trollers. It was operated under various   five distillation cuts ranged from a
be limited to a few percent. In the          vacuum settings utilizing a two-stage     few percent to 45% of the feed); op-
plant, the properties of the still bot-      steam-jet system. The process was         erators frequently overrode the sys-
toms, including viscosity and solvent        very operator intensive, requiring up     tem controls to improve boilup rates.
holdup, varied widely even though            to 80% of the operators’ available at-    The feed composition to the still var-
the same temperature and vacuum              tention. Additionally, because product    ied considerably — however, most of
endpoints were consistently used.            specifications were not met, large        the variance could be attributed to
The laboratory distillation proved           quantities had to be reprocessed.         two components, one of which was
that the single-blade propeller agita-          The challenges included variable       the highest volatility component.
tor in the still simply didn’t provide       feed concentrations from one batch to         After the field observations were
agitation and, therefore, the interfa-       the next. Also, the operation pro-        made, the system was modeled on a
cial transfer quickly declined as the        duced six components, and the purity      simulator — first, batchwise and,
surface became quiescent in the              of the salable one — a component of       then, in a semicontinuous mode, ad-
early stages of solvent removal. So,         intermediate volatility — was very        justing the reflux ratio to maintain
the kettle was retrofitted with a dual       inconsistent, typically ranging from      adequate internal liquid rates for the
axial impeller, which induced a              90–95%, while the customer demand-        existing column internals. Through
high-velocity axial flow and more            ed purity levels in the >95% range.       the simulations, the revamping engi-
interfacial transfer area.                   Unacceptable cross-contamination of       neers determined that the current