Thursday, December 6, 2012

Caustic Soda Flakes -Continoius Costic Fussion Plant(CCF)


The continuous caustic fusion plant for making caustic soda flakes (100%c concentrated NaOH).The feed solution containing not less than 30% NaOH is evaporated to 50% in two evaporators & 9kg/cm2 steam. The 50% caustic soda by2 is conc. To 98 to 99% in evaporator No. 3 using heat transfer slat heated in a furnace with furnace oil & hydrogen gas. The heating medium contains 7% NaNO3, 50% KNO3 & 43% NaNO2. H2 used for heating is to minimize oil consumption. The flakes then formed from the flakes is sent to packing section.

            General description of the plant
The plant fulfils the following main requirements
  •  The plant is of most advanced technology
  •  The plant is suitable to produce export grade caustic soda flakes from caustic soda soln. Generated in ion exchange membrane cells and / or liquid NaOH soln. Of 50% concentration
  •  The plant is designed for Optimum low energy consumption.
  •  The equipment & the plant are of proven design & safe in operation.
The plant consists of the following components
  •  First stage falling film evaporator using the vapor heat ex second stage & possibly the falling film concentrator.
  •  Second stage falling film evaporator using live steam.
  •  Heat transfer slat heated falling film concentrator, consisting of individual concentrator elements of special design
  •  High efficiency heat transfer salt heating system by the combustion of fuel oil & H2 gas.
  •  One specially designed flaking machine to process high concentrated caustic soda melt into flakes at low temp.
  •  Two semi – automatic bagging scales to fill hygroscopic NaOH flakes into open type bags at 50kg each (one is stand – by to the other)
  •  Instrument & control systems designed to operate the process plant automatically
            Specification of feed solution
  •  Feed source ex ion exchange membrane cells
  •  Analysis (as is basis)
NaOH                     min 30% w/w
NaCl                       max 0.005% wt
Na2Co3                    max………. ppm wt
NaClO3                   max………. ppm wt     to be specified
Fe2O3                      max………. ppm wt
  •  Temp          600C
  •  Pressure at grade    2.5 barg
            Specification of caustic soda solution
At outlet of caustic cooler HE – 4
 NaOH                                        50% w/w
 Temp                                         400C
Pressure at grade                       2-5 barg
            Specification of flakes
 NaOH                                        99% w/w total solids
 Temp at outlet of bagging scale 55-600C max
 Thickness                                   approx 0.8 – 1.2 mm
 Bulk density                              approx 0.7 – 0.9 kg/dm3
 Volume                                      approx 0.3 – 1cm2

            Specification of chemicals
            Sugar (As corrosion Inhibitor)
o   Quality                                       Food grade, white, granulated
                                                       (in bags, near area of usage)
            Heat transfer salt
o   Composition
KNO3                         :                 50% w/w
NaNO2                     :                 43% w/w
NaNO3                     :                 7% w/w
Sulphur                     :               max. 0.025% w/w
            Effluents / emissions
            Liquid effluents
            Continuous waste water stream
Waste water coming form various continuous users & washing produces is collected in the floor trench system & led to the main sever system.
            Discontinuous waste water stream
Under normal circumstances, the flaking machine (F-1) must be washed out 2 times per month. The flaking machine has to be cleaned with about 2m3 of cooling water. The resulting NaOH soln, is led via flake chute (D-9) bagging scale (w-1) into the floor drainage system. 
            Solid effluent
1) Caustic melt from emptying the flaking machine vat (washing procedure) will be collected in drums
 2) Damaged bags during filling on the bagging scale
 3) Safety overflow from flaking machine & seal pot (T-10)
            Operating flexibilities
The flexibility of the plant is determined by the capacity ranger of the individual plant components. Operation at nominal capacity has to be considered as 100% corresponding to be specified nominal capacity of each unit. 
1.  Evaporation unit
The minimum capacity of the evaporation unit lies at 30% of nominal load, ie., at 30TPD (NaOH 100%)
Capacity range of each individual falling film evaporator is substantially smaller. In order to nevertheless operate the desired partial load, caustic must be re-circulated via bypass through the individual stages at a nominal load below 65% ie., feeding of falling film evaporators is kept artificially high.
1.           65 - 100% of nominal load = 65 - 100 TPD (NaOH - 100%). In this range, capacity can be varied continuously, without re-circulating the caustic via the falling film evaporators.
2.           30 – 65 % of nominal load = 30 – 65 TPD (NaOH – 100%). In this range, the capacity must be re-circulated via the falling film evaporators, by opening the by – pass valves related.
2    Salt heating unit
The fuel oil / H2 burner system operates in a range of 25 to 100%. Corresponding to the required capacity range of conc. unit. Below 25% a continuous control is not possible any mere. Smaller capacities can only be done in the on / off mode.
3    Concentration unit
The falling film concentrator operates at a range of 50 to 100% TPD. Exceptionally, in case of emergency, the capacity of the falling film concentrator can be reduced to 50 TPD. Special procedures are required to achieve smaller capacity than this minimum capacity.
4    Flaking unit
The flaking machine operates in a range from 50 to 100 TPD. The max. capacity of the flaking machined is depending on the cooling water temp.
5    Bagging unit
The bagging unit operates in the range of 0 to 100 TPD.

  Process design

            Dehydration
It consists of the following stages
* Evaporation in two effects
* Concentration in one effect
Plant is designed to product
* 100 TPD of liquid caustic soda solution at 50% conc.
* 100 TPD of flakes
* 50 TPD of liquid caustic soda solution at 50% conc.
* 50 TPD of flakes
            Caustic soda solution production
Caustic soda feed is fed to the falling film evaporator EV-1. During single pass through this evaporator, Operating on product side under or Vacuum of 75 for (0.100 bar), the caustic soda feed is concentrated from 30% up to approx 36.9%. The generated vapors are condensed in a water – cooled surface condenser (C-1) the resulting vapor condensate together with the condensate ex falling film evaporator (EV-1) is collected in a tank (T-4) & discharged from the plant by means of a pump (P-5). The falling film evaporator (EV-1) is heated by the vapors generated in the second effect falling film evaporator (EV-2)
The vacuum on product side of the falling film evaporator (EV-1) & on the vapor side of the surface condenser (C-1) is generated by a watering vacuum pump (P-6).
36.9% caustic soda lye is discharged from the falling film evaporator (EV-1) by means of a pump (P-2) & fed via H.E (HE-2) & (HE-3) to the falling film evaporator (EV-2). On passing this heat exchanger, 36.9% caustic soda lye is warmed up from approx. 66.70C to some 1400C
During a single pass through the falling film evaporator (EV-2), Operating on product side at atmospheric pressure, the caustic soda lye is con. Up to 0% caustic soda soln. This stage is heated by steam.
50% caustic soda soln. is discharged from the falling film evaporator (EV-2) by means of a pump (P-3) & leaves the plant at a temp of 400C, after having passed HE – 2 & HE – 4.

            Flake Production
The caustic soda feed is fed to the falling film evaporator (EV-1). During a single pass through this evaporator, operating on product side under a vacuum of 94 torr (0.125 bar), the caustic soda feed is conc. From 30% up to approx 45.3%, the generated vapors are condensed in a water – cooled surface condenser (C-1) & the resulting vapor condensate together with the condensate ex falling film evaporator (EV-1) is collected in a tank (T-4) & discharged from the plant by means of a pump (P-5). The falling film evaporator (EV-1) is heated by the vapor generated in the II effect evaporator (EV-2) & the vapor from the falling film concentrator (EV-3).
The vacuum on product side of the falling film evaporator (EV-1) & as the vapor side of the surface condenser (C-1) is generated by a watering vacuum pump (P-6)
45.3% caustic soda lye is discharged from the falling film evaporator (EV-1) by means of a pump (P-2) & fed via H.E (HE-2) & (HE-3) to the falling film evaporator (EV-2). On passing these HE, 45.3%.  Caustic soda lye is warmed up from approx. 820C to some 1030C.
During a single pass through the falling film evaporator (EV-2), Operating on product side at atmospheric pressure, the caustic soda low is con. Up to 50% caustic soda soln. This stage is heated by steam.
The 50% caustic soda soln. is discharged from the falling film evaporator (EV-2) by means of a pump (P-3) & is fed to the falling film conc. (EV-3).
During a single pass through the specially designed falling film concentrator EV-3, the caustic soda soln. is dehydrated from 50% up to approx. 99% caustic soda melt. The falling film concentrator (EV-3) operates on product side under atmosphere pressure & the generated vapors are used to heat the first effect falling film evaporator (EV-1). The heat required for the conc. From 50% up to 99% is transferred by heat transfer salt. It is circulated by a pump   (P-7)  through a fuel oil / H2 fired forced flow salt heater (H-1), where it is warmed up to approx 4300C. The flue gases pass through a combustion air preheater (HE-1), where the combustion air is warmed up from ambient temp. to approx 2820C. The flue gases are vented through the stack (D-8) into the atmosphere.
The fuel oil/H2 burner (B-2), elected on top of the salt heater (H-1), is designed for operation with preheated combustion air.
In order to protect the falling film concentrator (EV-3) from heavy corrosion, by high concentrated caustic soda, sugar in form of aqueous solution is added to the 50%caustic soda solution. The sugar solution is prepared in dissolving tank (T-3) & dosed to the process by a metering pump (P-4).
The high concentrated caustic soda melt is fed via a seal pot (T-10) by gravity flow to one specially designed flaking machine (F-1), where it is processed into flakes at low temp. the flakes are fed by gravity via flake chute (D-9) to the bagging scales (W-1). The bagging scales are of airtight design, to avoid moisture pick – up of the hygroscopic flakes.
The fine caustic particles escaping from the filling nozzle of the bagging scales (W-1) are sucked – off by means of caustic dust scrubber (S-1). The filled bags are fed by belt conveyors (W-1) to the bag closing machines (N-2), where they are closed air tight.
The plant is controlled by instruments to ensure fully automatic operation of the process. Operating personnel is required only at the bagging & bag closing station. 
   Product flow
Flow controller controls the plant capacity. Flow recorder continuously registers the actual flow. Minimum plant capacity is 50% of nominal load, ie., at 50 TPD NaOH 100% or at 2.95 m3/hr caustic soda solution 50% NaOH.
Caustic soda piping
A.         Seal pot
The caustic soda melt outlet beneath the falling film evaporator (EV-3) is equipped with a seal pot (T-10), which prevents the entry of vapors into the piping & flaking machine (F-1). The seal pot is provided both with heat transfer salt as well as high pressure steam tracing.
B.         Pipe for caustic soda melt
The piping between seal pot (T-10) & flaking machine (F-1) is provided both with heat transfer salt as well as with high pressure steam tracing & arranged on a slope preventing freezing
The caustic soda melt pipe dips into the distributing channel of the flaking machine to guarantee barometric sealing to prevent O2 entering into the pipe

CONCENTRATION / FLAKING


  Flaking


The caustic soda melt flows from the falling film concentrator (EV-3) via caustic soda melt piping, heated by heat transfer salt, into the dipping vat of the flaking machine (F-1). The principle of the flaking machine is based on a rotating, water – cooled cylinder, dipped 10 – 20mm into a dipping vat which is constantly fed by caustic soda melt.

The film of 0.8 to 1.3 mm thickness which forms on the surface of the cooling cylinder, crystallizes & is cooled down to a temp of about 55-600C during one rotation of the cylinder.
The caustic soda melt layer is scrapped off the cooling cylinder by scraping knives. During the scrapping off, the layer on the cooling surface breaks into flakes.
Water is used for the cooling of the product. This cooling water is tangentially sprayed to the inner surface of the cooling cylinder by means of a tube equipped with nozzles. The cooling cylinder works under over pressure, so the cooling water continually leaves the cooling cylinder through an outlet tube.
Thus the cooling chamber is emptied during operation & the cooling water flows as a water film from top to bottom of the cooling cylinder surface.
The flakes reach the vibrating conveyor of the bagging scale (W-1) via a vertical, air tight flake chute (D-9)
The flaking machine is covered with a closed casing, thus avoiding caustic soda dust, which forms during scrapping off of the caustic soda melt film, to penetrate into the ambient air. The dipping vat filled with product is equipped with an overflow leading into a drum placed under the flaking machine.
In case of an over flow during operation, the caustic soda melt flow must immediately be reduced, or the rotating speed must be increased.
In case the flaking machine is turned off due to breakdown or product interruption, the dipping vat must be emptied & washed out. Emptying the dipping vat is done by tilting it by means of an electric motor & year thus the caustic soda melt flows into the overflow drum.
 
Flake Weighting / Bagging/ Palletizing
The flakes from the flaking machine are closed via vibrating conveyor to the bagging scale (W-1),which are controlled by a mechanical weighing system. The flakes are filled into open bags of 50Kg each. The caustic soda dust produced during the bagging process is sucked off by the caustic soda dust scrubber, thus keeping the operating area free of caustic soda dust.
The bagging process :
The empty bag is turned upside down on the bagging stud & fixed with the bagging clamp. By means of a hand lever, the clamping device of the squeezing valves situated between vibrating conveyor & weighing device is opened.
By means of a magnetic contact at the hand lever. The vibrating conveyor is switched on, & conveying of the flakes is started. The vibrating conveyor switches off automatically when the weight is reached.
The squeezing valve must be shut down with the hand lever again, the bagging clamp is opened & the filled bag is removed from the bagging stud. The filled bag is now switched by means of the manual bag-closing machine (N-2).
In order to facilitate handling of the filled bags, a belt conveyor (N-1) is installed beneath the bagging scale (W-1). The filled & closed flake bags are then palletized by hand.
 
 
 
 



23 comments :

ATT India said...


Thanks for sharing the information

Salt Spray Chamber

metering pump manufacturer in india said...

Thanks for all your efforts that you have put in this
water treatment equipments

Unknown said...
This comment has been removed by the author.
Unknown said...

Why sugar used in flaking plant of 98%NaOH

Automatic Bagging Machine said...

Thank you for sharing this post.

Unknown said...

How we can reduce the temperature of CSF flake at filling section, discharge section of flaker?

Dr.Aphale said...

Saarthy is one the largest traders of chemicals such as Caustic Soda Lye and many other chemicals into Africa.
Caustic Soda Lye

Usman Ali said...

Dear
There are two purpose of adding sugar in flaking plant
1.To remove oxygen from system which form chromate which can effect the quality of caustic flakes such as colour,purity etc.
2.To avoid the direct contact of caustic with nickel tube because caustic react with nickel if nickel reacts with caustic it effects the flakes colour.

Caustic Soda Flakes said...

Wonderful illustrated information. I thank you about that. No doubt it will be very useful for my future projects. Would like to see some other posts on the same subject!

Caustic Soda Lye said...

I am really impressed with your blog article, such great & useful knowledge you mentioned here.
Your post is very informative. I have read all your posts and all are very informative. Thanks for sharing and keep it up like this.

Usman Ali said...

Dear
As above i read a question that how we control caustic flakes temperature so i share my practically knowledge that i observed during cautic sodification plant operations that
1.By increasing the flow rate of cooling water in flaker drum we control flakes temperature.
2.By removing the scaling that occurred inside the flaker drum. Due to this scaling proper heat cannot be exchage due to which flakes tempreature rise.
its another discussion that how to avoid from scaling or why scaling occurred
As below 60 C temperature is allowed but above 60 C can burn the poly ethylene liner

Caustic Soda Flakes said...

This is really a very good article. Thanks for taking the time to discuss with us, I feel happy about learning this topic. keep sharing your information regularly for my future reference.

Unknown said...

Dear can u tell me what kind of trouble shooting accrued flaker plant during operation

Usman Ali said...

Different problem face during operation of flaker plant
that include
1. 50% and 60% caustic pump jaming
2. Seal leaking of Pump.
3. Salt heater operation problem
4. Caustic concentration problem
5. Vacuum problem.
6. Caustic flakes Temperature control problem.
7. Salt pump problem

Unknown said...

Thank you very much sir...i would also like to know give me some info about molten salt...if NaNo3 produces by oxidation of NaNo2 thn why sould we use it for the preparation of salt.when it is not good for salt quality...it reduces salt's thermal efficiency..

Unknown said...

*Salt leak in final concentration tube tracing..
*oxudation of salt..freezing of molten salt..
*day to day increasing nickel content in product
*Bag sleeps and weight variation at packing baging system

Usman Ali said...

Dear Samir
Salt ratio is as under
Potassium nitrate KNO3 53%
Sodium Nitrite NaNO2 43%
Sodium nitrate NaNO3 7%
From the above you see that there is very less/minor ration of sodium nitrate
in addition to this we also introduce purging medium to remove oxygen and in order to stop oxidation of salt as well as oxidation take place melting point of salt increases and for the above ratio the melting point of salt is about 140-150 C

Unknown said...

Dear sir I increase cooling water during caustic not properly contact drum surface,old can you give any suggestion.

Unknown said...

These problems are being faced in our industry also but we have to take intermediate action during thesetypes of problems. If u want I will give u some answers

Ahmed Ali said...
This comment has been removed by the author.
Unknown said...

Sir what is the trade name of food grade sugar that we can use in flakes.

Hemant said...

I want to fix caustic concentration problem i need any specific temp. At which our flakes got 99-98% concentration l..?

Usman Ali said...

Dear
You have to increase the temperature of salt which is used to heat caustic
As per operation that I have experienced return temperature of salt is about 410 C
This will achieve the required concentration

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