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Tuesday, January 18, 2011
** CLOSED FOR MAINTENANCE **
Monday, January 10, 2011
PLATE HEAT EXCHANGERS !!!
What exactly is a PHE ??
hmmmm
A Plate Heat Exchanger , or PHE as it is more commonly called as , is a type of heat exchanger that uses metal plates instead of the conventional pipes as in a Shell and Tube Heat Exchanger .
It was invented by Dr. Richard Seligman way back in 1923 .
Friday, January 7, 2011
HEAT EXCHANGERS !!!! Shell and Tube !!!
Today it's about HEAT EXCHANGERS !!!
The most basic and common machine used in industries nowadays .
A Heat Exchanger , speaking in general terms is a device which " EXCHANGES HEAT " , simple right . Now as engineers we must complicate it :P .....so...A Heat Exchanger is a device *ahem* , which is used for effective heat transfer operations between two mediums , effectively , two fluids during industrial processes !!! Normally , there is no direct contact between the two media , but a thermally conductive wall exists separating them .
There are two primary classifications of heat exchangers -
1) The Parallel Flow Heat Exchanger
2) The Counter Flow Heat Exchanger
In the former , the fluids flow parallel to each other ; they enter the heat exchanger from the same side and exit it from a common side . The latter is exactly opposite .
Always the Rebel wins the lot ;) , not surprisingly , the counter flow "rebel" Heat Exchanger is the one which gives more heat efficiency !!!
There are many types of heat exchangers , slowly and slowly i am going to highlight each one of them everyday ;) .... today it will be The " SHELL AND TUBE " Heat Exchanger !!!
As the name itself declares , a Shell and Tube Heat Exchanger consists of an "outer" SHELL inside which a bundle of TUBES are arranged . This set of tubes is named a "Tube Bundle" . One fluid runs through these tubes , while the other flows outside the tubes BUT inside the shell . The heat is transferred from one fluid to the another through the walls of the tubes , either from tube side to shell side , or vice-versa .
But the tubes are not so simple as the one above guys :P ..... There are numerous tubes , for larger heat-exchange are , which are arranged inside the shell in patterns , either straight or in a U-shape , accordingly to the amount of heat it must exchange .
We can easily control the fluid in the tubes , but what about the one which is free-flowing in the shell ??? Hence , things called " BAFFLES" are used to direct the flow in the shell , so that the fluid in the shell is not flowing in a gingerly fashion creating pressure differences in the shell fluid .
The void like things in the right of the above picture are called "PLENUMS" , also called as "Water Boxes" , these help in pumping equal amount of the fluid in equal intervals of time in an orderly fashion .
Also depending on the number of times the fluids go around the heat exchanger , it can be diversified into ONE PASS or TWO PASS , the latter being the more efficient one .
Also they can be classified based on the phase of the fluids used in the shell and tubes . If the fluid used in each of them is in the same phase it is christened as a " SINGLE PHASE " Heat Exchanger . If the fluid in the shell is in a different phase than that of the tubes , it is called a " TWO PHASE " Heat Exchanger .
For an Heat Exchanger to be an efficient one , it must transfer heat well . Thus , the tube material in particular must have good thermal conductivity . Also , it must be able to resist thermal stresses which arise due to the difference in the temperatures of the two fluids in contact with the walls of the tube , thus repeatedly expanding and contracting .
Hence , the material must be Strong , Thermally Conductive and Corrosion resistant . Here comes the concept of " SUPER-ALLOYS " . These are used to make the tubes of the heat exchanger.
Ex:- Inconel , Hastelloy ,etc .
Stainless Steel and Carbon Steel can also be used , but they cannot compete with the above super-alloys in terms of efficiency developed .
ADVANTAGES :
1) used in oil refineries , and other large scale industrial processes
2) the BOILER used in locomotive engines is actually a modified heat exchanger , so is the CONDENSER used in refrigeration. They are essentially TWO PHASE SHELL AND TUBE HEAT EXCHANGERS !!!
3) used in waste water treatment
4) the nuclear power plant's "Pressurized Water Reactors" is actually a TWO PHASE , U TUBE , SHELL AND TUBE HEAT EXCHANGER .
5) used in aircrafts . The Heat Exchanger takes the heat from the engine's oil system and showers it on the fuel , thus , leading to better fuel economy and an absence of using expensive anti-refrigerants in the fuel .
6) maybe the most common use of an heat exchanger is the RADIATOR !!!
Well people , thats about heat exchangers , or i must say a part of it :P ... there is more to come about the other types in the following posts !!!
BUT , i would want to say that the world's most efficient heat exchanger is INSIDE you !!!!
Believe me , thats true !!!
your LUNGS !!!!
just finished reading THE LOST SYMBOL !!! maybe this is what Dan Brown meant by saying YOUR BODY IS YOUR TEMPLE !!! Isn't nature wonderful !!!
Monday, January 3, 2011
SPRAY DRYER !!!
Hey guys , lets throw some light into the concept of Drying today !!!
Generally speaking , Drying refers to the removal of minute amount of water vapour from the feed . There are many types of Drying , the most prominent of them being Rotary Drying , Tunnel Drying , Spray Drying , etc .
In all of these basic UNIT OPERATIONS , Spray Drying holds a numero uno status from quite some time . What’s so special in this process that it survived the turmoil of humanity right from the 1870s , when new process come and then sink without a trace ??? Lets know then !!!
First of all …..WHY SPRAY DRYING WHEN WE CAN JUST EVAPORATE ??? no great energy wastage from our side too …then why ??
The answer’s SIMPLE ---- In the world there are a galore of thermally sensitive and thermally resistant materials . We simply cannot dry them in the open sun …The former might just evaporate without a trace while the latter stubbornly sits there all day no matter you dry it for weeks on a trot !!! Tadaa !! Hence , Spray Drying
Lucidly speaking , Spray Drying involves the production of a dry , granular , free-flowing powder from a liquid or a slurry by the rapid cooling with hot gases .
It is a CONTINUOUS , PARTICLE PROCESSING , MASS-TRANSFER operation !!!
In the process of Spray Drying , the liquid stream or feed , as we chemmies call it , is first atomized using a suitable Atomizer and is then sprayed at a high speed over hot gases present in the apparatus . The hot gas normally is Air , but if the feed is oxygen reacting we use Nitrogen . Next the hot gases dry up the stream , which is then taken into a Cyclone for separation of the particles produced . In addition , a bag filter can also be used to get finer particles .
Spray Drying mainly involves four stages :-
a) Concentration of the feed
b) Atomization of the slurry
c) Droplet drying
d) Separation using cyclones
Don’t get confused with the stages , but Spray Drying is a SINGLE-STEP process . The above stages occur at blinding velocity that they all are considered one continuous entity .
ADVANTAGES :
1) It is continuous.
2) Can be made Fully – Automated easily
3) It can be used irrespective of the feed capacity .
4) We can produce nearly-perfect spherical particles .
5) The weight and volume of feed can be reduced . As a matter of fact , Spray Drying reached it’s full glory during WW2 , where the need to reduce the weight of food for the army was enormous .
USES :
Used in the FOOD industry extensively , especially in the Dairy Industry .
The Pharmaceutical Industry found a great way to make powders for tablets .
In recent times the Ceramic field is catching up with this concept too !!!
DISADVANTAGES :
1) Very energy extensive
2) High operating cost
3) Ineffective in producing a constant granular size of particles
Hence , the concept of NANO SPRAY DRYERS is the talk of the town nowadays .We will discuss about it sometime later in the future for sure !!!
Well , for the never ending practical thirst for the geek community of the world , here’s a special gift just for you
check out
http://www.gbm.dk/gbm/SD-e.htm for the working model of a common spray dryer !!!
au revoir guys !!!
Sunday, January 2, 2011
BATCH PROCESS !!!
First of all lets discuss DISTILLATION !!! Distillation is a method of separating two liquid from a mixture based in the difference in their boiling points or simply , Volatility .
Distillation is a pure UNIT OPERATION , which may as well be the oldest known operation used for the separation of liquid mixtures .
Distillation is many types , now letz throw some light into the most basic one , called BATCH DISTILLATION or BATCH PROCESS generally .
BATCH DISTILLATION , as the name suggests is a form of distillation where the mixture is distilled in “ BATCHES ” , or small volumes.
It means the distillation is carried out separately for different batches . First a batch is distilled , then the second and then the third and so on .
This is in total contrast to the CONTINUOUS DISTILLATION where the distillation goes on continuously , the feed is continuously fed and the distillate product is continuously collected .
In Batch Distillation , as in the case of simple distillation , the liquid mixture is fed into the distillation column where it is vaporised . The lower boiling liquid evaporates first leaving behind the higher boiling liquid , thus effectively separating the mixture . The only difference is it is done in batches .
Batch process is used :
a) for “intermittent” processes ( which alternatively cease and start ) .
b) for small volumes of feed , as it is feasible or say economical for only small volumes . Continuous Distillation does not work out well when we have to distillate only a domestic amount of mixture .
c) when we desire for “flexible” methods , yes , we can easily change the components of the mixture and obtain the same successful distillation process without applying any changes to the operation . No wonder it is called a Unit Operation !!!
Saturday, January 1, 2011
BENZENE !!!
Well….this compound one must say totally changed the way we understand chemistry !!! , especially ORGANIC CHEMISTRY .
It behaves differently , is structurally different , chemically different …… shortly totally different from any of the organic chemicals encountered by chemists in the history of chemicals .
The basic abnormality was it’s molecular formula….It did not fit itself into any of the known homologous series !!! It was a world in itself .
So , the total credit of the extension of the field of organic chemistry into new heights must go to KEKULE aka Friedrich August Kekule von Stradonitz !!! Phew !! that’s a mouthful !! yet , this person is the PRINCIPAL founder of the total theory of CHEMICAL STRUCTURE !!!
He dreaming abt benzene’s structure is the best known story among chemists !!! Was it luck or must we salute his highly intellectuality which his sub-conscious mind possesses which we all together lack in real life !!!
Benzene is the stone-stepping break-through in organic chemistry cause this is where the concept of aromaticity all starts !!!
Structurally , benzene is a wonder !!! but rhetorically , it is quite inflammable and carcinogenic !!! Hence , it’s use as a industry solvent is being questioned further !!!
Whatever may be the conclusion….Benzene has become what we called the heart-throb of every school going child who is just fascinated by the mystery of it’s structure and is blown over by the history surrounding it !!!
Well , I was ….Benzene is simply …MY BABY !!!