Perspectives: Process Puzzler

A Troubled Process for Producing Surfactant Requires Considerable Change

Readers help sort out a sulfonation in shambles.

THIS MONTH'S PUZZLER
We make an anionic surfactant by reacting oleum (SO3 in H2SO4) with alkyl benzene (C12H25C6H5) in a continuous stirred-tank reactor (CSTR); see Figure 1. The product from our spray dryer is 85% pure, with the remainder being sodium sulfate and water. Ever since we started up this process a year ago, we've had problems: 1) a residue in the product layer in our separator; 2) a heavy black residue in the spent acid at the bottom of the separator — the company that regenerates our H2SO4 has threatened not to take our waste if we don't clean it up; 3) our titration analyzers downstream of the reactor and digester sometimes have fouled tubing — a sample pump failed a few weeks ago because a suction strainer plugged; and 4) startup and shutdown are rough — we can't turn down the capacity of the sulfonator cooler effectively and the smaller jacket control valve can't handle the mid-range cooling requirements. We see a lot of what appears to be burnt product during these periods. Recently, our Coriolis meter, which measures alkyl benzene, corroded out. What can we do to address these problems?

ADJUST THE OLEUM RATE
The problem likely arises from the oleum feed rate being too high relative to the alkyl benzene feed rate causing charring of the alkyl benzene. Very tight molar ratio control and temperature control are necessary to minimize the charring — the blackish material seen in the spent sulfuric acid. Slowing down the oleum feed rate and increasing the residence time in the CSTRs is a potential solution. Additionally, make sure the oleum and alkyl benzene feed control systems are accurately measuring mass flow rates.
Wyatt Winkenwerder, senior research engineer
 Akzo Nobel, Brewster, N.Y.

REVAMP THE PROCESS
Alkyl benzene sulfonation is an exothermic reaction. If the exotherm and stoichiometry are not controlled, the reaction will produce undesirable products that will create the described problems. Process stoichiometry, operating parameters and the chemistry must be precisely controlled. Sufficient residence time must be provided to ensure the desired conversion. Also, I would use a pump for oleum. Relative flow control is important (see Figure 2); many options are available. The processor should select the one that would prevent back flow suggested by corrosion of the Coriolis meter.

Because this is a continuous process, I strongly recommend using a gravity-based separator that will separate two layers and eliminate the use of two pumps: refer to McCabe and Smith's "Unit Operations of Chemical Engineering," McGraw-Hill, 2nd ed., pp. 40–41. The current organic/aqueous separation is fighting two opposing controllers that complicate processing. The addition of water may be necessary to change the densities and facilitate the separation. The existing system can be reconfigured to create a simpler process that will eliminate black residue that is formed due to over-sulfonation of alkyl benzenes.
Girish Malhotra, president
EPCOT International, Pepper Pike, Ohio

CHECK FOR CONTAMINATION
Maybe it's in the water or the materials of construction, i.e., piping, tubing or valves.
Frank Fox Jr., retired,
Houston, Texas


TAKE FOUR STEPS
I suggest the following actions:
1. Aerate the separator/settler sump to remove more of the product.
2. Increase the brine concentration to provide more cooling to the sulfonator, to avoid the over-heating that causes formation of black reside.
3. Replace the Coriolis meter with one using sulfuric-acid-resistant tubing.
4. Install an automatic flushing system for the titration analyzer loop. This will prevent suction strainer plugging.
Donald Phillips, manager
Phillips Engineering, Melbourne, Fla.

TACKLE THREE ISSUES
There are three distinct problems, in order of importance: 1) poor process control; 2) poor separation before neutralization, and 3) backflow from more resistant pipe to less resistant pipe (Figure 3).

Process control must operate effectively during all phases of plant operation. Too often, controls run only smoothly near the nominal capacity. The smaller jacket temperature control valve (TV) can't provide sufficient cooling during either startup or shutdown. The larger reactor chiller TV provides too much cooling during these periods. The obvious solution is a larger jacket TV and increased velocity through the reactor jacket, assuming the pressure drop is not a problem — I've used an inline booster pump to make up for added pressure-drop. Another problem with the reactor heat transfer is the agitation. Seldom is a single impeller enough for good mixing, let alone good heat transfer. More impellers are needed — this may require a new agitator. One way to reduce the load on the jacket TV would be to add a cooled-jacket static mixer; the reactor then becomes a second digester. This may not be enough.

If energy balance calculations show additional changes are needed, it may be necessary to add a smaller TV for split-range control of the reactor chiller temperature during the transition periods between steady operation and shutdown.

A threat from your regeneration service company should not be taken lightly. One word from them and you're out of business. I see filters in your future. You can approach the spent-acid-contamination problem in two ways: a side-stream filtration for a modest problem or full-stream filtration. A hot water wash prior to filtration could help improve separation by avoiding gelling in the acid.

Perform laboratory tests to identify the maximum pore size that will produce clear acid in combination with the optimum pre-treatment. Then, work backward to satisfy the service company, balancing economics and quality.

Cleaning up the product may be easy once the source of trouble is identified. The entire process should be shut down and flushed of contaminants. Pay attention to the heat exchangers, especially as they may have significant fouling that has gone undetected. After the temperature control problem is ameliorated, the contaminant in the solid should go away. If not, you may want to take samples from the separator, adding filtration prior to neutralization when a slurry is produced, and a wash-centrifuge step prior to the spray dryer.

There is no reasonable explanation for the corrosion failure of the Coriolis meter. Check valves leak, and if corroded badly, springs fail to close and acid flows back into the line supplying alkyl benzene. Install a backflow preventer to avoid liquid backflow of the H2SO4. It's doubtful that the acid vapor can be so easily contained. The only idea that comes to mind is a cold water wash followed by decanting; the acid vapor would go into the water but some trace alkyl benzene will be lost.

You will want to chase the corrosion backward to the piston pump. These pumps are expensive to replace and long on delivery. In the end, it may be much easier to upgrade the pipe specification if the corrosion problem continues.
Dirk Willard, consultant
Wooster, Ohio

FEBRUARY'S PUZZLER
My refinery is grappling with how to set up the coolers for reducing oil sample temperatures for safe handling. These coolers usually consist of a U-tube inside a water jacket. The tubing is rated for 2,000 psig at 600°F; the shell maximum allowable working pressure is 75 psig at 600°F. We're working with heavy gas oil from a coker at 400°F. An alternative that's been suggested is to use a tube inside a tube: ¼-in. tubing for the oil within 1-in.tubing for the cooling-tower water. The project engineer wants hydrostatic pressure relief valves (PSVs) installed for blocked-in water. The maintenance engineer is pushing for the tube-in-tube approach because he insists it won't need a PSV; he claims it is protected under ASME code because the cooler diameter is less than 6-inch. Who's right? How should we proceed?

Send us your comments, suggestions or solutions for this question by January 10, 2014. We'll include as many of them as possible in the February 2014 issue and all on ChemicalProcessing.com. Send visuals — a sketch is fine. E-mail us at ProcessPuzzler@putman.net or mail to Process Puzzler, Chemical Processing, 1501 E. Woodfield Road, Suite 400N, Schaumburg IL 60173. Fax: (630) 467-1120. Please include your name, title, location and company affiliation in the response.

And, of course, if you have a process problem you'd like to pose to our readers, send it along and we'll be pleased to consider it for publication.

More from this perspective...

Title

Process Puzzler Question: Lengthen media life and reduce operating costs in a pressure filter

Our pressure filter suffers from excessive cake build-up. Although some caking is necessary for efficient filtering, it would be desirable to extend the running time. What do you suggest? Also, do you have any ideas on how we can lengthen media life or reduce operating costs?

06/16/2008

Process Puzzler: Avoid Another Fatal Accident

Readers consider the causes of a deadly fire.

06/19/2009

Process Puzzler: Choose a pump wisely

Readers offer tips about how to choose the best pump for slurry service.

05/25/2005

Process Puzzler: Combat Column Contamination

Readers suggest how to tackle a troublesome tower.

12/15/2009

Process Puzzler: Confront Column Constraints

Upgrading an atmospheric tower may require operational and design changes.

05/20/2014

Process Puzzler: Deal with a Decanter that Can't

Readers recommend ways to save a standing separator.

10/14/2010

Process Puzzler: Deal with dryer drizzle

Readers suggest ways to solve a spray interference problem

06/16/2008

Process Puzzler: Eliminate Evaporator Effect

Readers solve an evaporation pump problem.

05/21/2009

Process Puzzler: Fix a Fluid Flow Flaw

Readers suggest solutions for dryer difficulties.

09/15/2009

Process Puzzler: Fix a Fluidized Bed

Addressing the problems may mandate multiple measures.

04/02/2014

Process Puzzler: Go With Agglomeration

Safely reprocessing flammable polymer dust demands a number of measures.

06/27/2013

Process Puzzler: Guard Against Gas

Readers suggest the source of a safety stumper.

11/10/2009

Process Puzzler: Kayo a Cascade Control Complication

Readers suggest how to properly regulate an exothermic reaction.

04/24/2009

Process Puzzler: Keep Incineration Safe

Readers suggest how to deal with a cyanide-containing fuel.

01/25/2010

Process Puzzler: Keep cables in their place

A Chemical Processing reader was looking for a solution to a cable hanger problem. At his plant, a 200-lb. cable bundle supported by cable hangers fell and injured one man. Read what advice our readers had for him and take a look at next months' question.

02/21/2005

Process Puzzler: Look Beyond The Valve

Other factors can contribute to persistent valve leaks.

01/14/2011

Process Puzzler: Make Solid Progress

Readers suggest ways to improve crystallizer controls.

06/16/2010

Process Puzzler: Master a Musty Mess

Readers suggest how to deal with a contamination source.

08/13/2009

Process Puzzler: Preempt Pump Problems

Readers suggest several options to improve reliability

02/01/2013

Process Puzzler: Put Railcar Loading Back on Track

Readers suggest how to stop serious safety snags.

04/21/2010