موضوع عن حامض الكبريتيك وطرق تحضيره ؟؟ مهم جدا ؟؟

2009-07-05, 09:28 PM #12
الصورة الرمزية اسلام البدوي
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تاريخ التسجيل: May 2009
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أخى العزيز(مهندس المحبة) جزاك الله خيرا على الموضوع واسمح لى ان أضيف معادلات طريقة التلامس مع بعض الشرح التفصيلى لها:-
Making the sulphur dioxide
This can either be made by burning sulphur in an excess of air:

. . . or by heating sulphide ores like pyrite in an excess of air:

In either case, an excess of air is used so that the sulphur dioxide produced is already mixed with oxygen for the next stage.
Converting the sulphur dioxide into sulphur trioxide
This is a reversible reaction, and the formation of the sulphur trioxide is exothermic.
A flow scheme for this part of the process looks like this:
The reasons for all these conditions will be explored in detail further down the page.
Converting the sulphur trioxide into sulphuric acid
This can't be done by simply adding water to the sulphur trioxide - the reaction is so uncontrollable that it creates a fog of sulphuric acid. Instead, the sulphur trioxide is first dissolved in concentrated sulphuric acid:

The product is known as fuming sulphuric acid or oleum.
This can then be reacted safely with water to produce concentrated sulphuric acid - twice as much as you originally used to make the fuming sulphuric acid.

Explaining the conditions
The proportions of sulphur dioxide and oxygen
The mixture of sulphur dioxide and oxygen going into the reactor is in equal proportions by volume.
Avogadro's Law says that equal volumes of gases at the same temperature and pressure contain equal numbers of molecules. That means that the gases are going into the reactor in the ratio of 1 molecule of sulphur dioxide to 1 of oxygen.
That is an excess of oxygen relative to the proportions demanded by the equation.

According to Le Chatelier's Principle, Increasing the concentration of oxygen in the mixture causes the position of equilibrium to shift towards the right. Since the oxygen comes from the air, this is a very cheap way of increasing the conversion of sulphur dioxide into sulphur trioxide.
Why not use an even higher proportion of oxygen? This is easy to see if you take an extreme case. Suppose you have a million molecules of oxygen to every molecule of sulphur dioxide.
The equilibrium is going to be tipped very strongly towards sulphur trioxide - virtually every molecule of sulphur dioxide will be converted into sulphur trioxide. Great! But you aren't going to produce much sulphur trioxide every day. The vast majority of what you are passing over the catalyst is oxygen which has nothing to react with.
By increasing the proportion of oxygen you can increase the percentage of the sulphur dioxide converted, but at the same time decrease the total amount of sulphur trioxide made each day. The 1 : 1 mixture turns out to give you the best possible overall yield of sulphur trioxide.
The temperature
Equilibrium considerations
You need to shift the position of the equilibrium as far as possible to the right in order to produce the maximum possible amount of sulphur trioxide in the equilibrium mixture.
The forward reaction (the production of sulphur trioxide) is exothermic.

According to Le Chatelier's Principle, this will be favoured if you lower the temperature. The system will respond by moving the position of equilibrium to counteract this - in other words by producing more heat.
In order to get as much sulphur trioxide as possible in the equilibrium mixture, you need as low a temperature as possible. However, 400 - 450°C isn't a low temperature!
Rate considerations
The lower the temperature you use, the slower the reaction becomes. A manufacturer is trying to produce as much sulphur trioxide as possible per day. It makes no sense to try to achieve an equilibrium mixture which contains a very high proportion of sulphur trioxide if it takes several years for the reaction to reach that equilibrium.
You need the gases to reach equilibrium within the very short time that they will be in contact with the catalyst in the reactor.
The compromise
400 - 450°C is a compromise temperature producing a fairly high proportion of sulphur trioxide in the equilibrium mixture, but in a very short time.
The pressure
Equilibrium considerations

Notice that there are 3 molecules on the left-hand side of the equation, but only 2 on the right.
According to Le Chatelier's Principle, if you increase the pressure the system will respond by favouring the reaction which produces fewer molecules. That will cause the pressure to fall again.
In order to get as much sulphur trioxide as possible in the equilibrium mixture, you need as high a pressure as possible. High pressures also increase the rate of the reaction. However, the reaction is done at pressures close to atmospheric pressure!
Economic considerations
Even at these relatively low pressures, there is a 99.5% conversion of sulphur dioxide into sulphur trioxide. The very small improvement that you could achieve by increasing the pressure isn't worth the expense of producing those high pressures.
The catalyst
Equilibrium considerations
The catalyst has no effect whatsoever on the position of the equilibrium. Adding a catalyst doesn't produce any greater percentage of sulphur trioxide in the equilibrium mixture. Its only function is to speed up the reaction.
Rate considerations
In the absence of a catalyst the reaction is so slow that virtually no reaction happens in any sensible time. The catalyst ensures that the reaction is fast enough for a dynamic equilibrium to be set up within the very short time that the gases are actually in the reactor.

من مواضيع اسلام البدوي :

2009-12-25, 11:38 PM #15
الصورة الرمزية aahmh86
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تاريخ التسجيل: Dec 2008
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مشكور مشرفنا العزيز المتألق دوما" بموضوعاتك الجميلة.
حمض الكبريتيك يعتبر واحد من أهم الأحماض إذيدخل في عدة صناعات كيميائية كصناعة حامض الفسفوريك,صناعة الأسمدة,معالجة المعادن الخام,صناعة المتفجرات,أيضا كعامل حفاز ويدخل في التخليق الكيميائي لدرجة أنه أصبح في كثير من الأحيان هو مقياس لتقدم الأمم بإنتاجه, كل هذا جعله يسمى عند بعض المهتمين بالصناعة بإسم خبز الصناعات الكيميائية(Bread of Chemical Industries).
وبعد إذنك مشرفنا إسمح لي أن اقدم لك ولجميع القراء هذا الرابط الخاص بكتاب يعنى بصناعة حمض الكبريتيك:
William G.I. Davenport, Matthew King, "Sulfuric Acid Manufacture"
http://uploading.com/files/9ZKI5RRV/...44288.rar.html
وشكرا"

من مواضيع aahmh86 :

2010-07-13, 08:53 PM #16
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تاريخ التسجيل: Dec 2007
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اقتباس المشاركة الأصلية كتبت بواسطة aahmh86 مشاهدة المشاركة
مشكور مشرفنا العزيز المتألق دوما" بموضوعاتك الجميلة.
حمض الكبريتيك يعتبر واحد من أهم الأحماض إذيدخل في عدة صناعات كيميائية كصناعة حامض الفسفوريك,صناعة الأسمدة,معالجة المعادن الخام,صناعة المتفجرات,أيضا كعامل حفاز ويدخل في التخليق الكيميائي لدرجة أنه أصبح في كثير من الأحيان هو مقياس لتقدم الأمم بإنتاجه, كل هذا جعله يسمى عند بعض المهتمين بالصناعة بإسم خبز الصناعات الكيميائية(bread of chemical industries).
وبعد إذنك مشرفنا إسمح لي أن اقدم لك ولجميع القراء هذا الرابط الخاص بكتاب يعنى بصناعة حمض الكبريتيك:
william g.i. Davenport, matthew king, "sulfuric acid manufacture"
http://uploading.com/files/9zki5rrv/...44288.rar.html
وشكرا"

عاشت الأيادي وشكرا على الكتاب المفيد .........

من مواضيع مهندس المحبة :

2010-07-14, 01:09 PM #17
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أشكرك أخي
أنا مختص بصناعة حامض الكبريتيك
وعندي برنا مج رائع جداا بالموضوع تستطيع إنزاله من هذا الرابط
http://www.sulphuricsolutions.com/

من مواضيع أبو البراء_عياش :

2010-07-14, 08:41 PM #18
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2010-07-14, 09:22 PM #20
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تاريخ التسجيل: Dec 2007
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اقتباس المشاركة الأصلية كتبت بواسطة أبو البراء_عياش مشاهدة المشاركة
أشكرك أخي
أنا مختص بصناعة حامض الكبريتيك
وعندي برنا مج رائع جداا بالموضوع تستطيع إنزاله من هذا الرابط
http://www.sulphuricsolutions.com/
شكرا أخي العزيز وراك الله فيك وننتظر الجديد من بقية الأعضاء ....

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