What happens when oxalic acid is heated with glucerol at 110 degree celcius?
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Glycerol or Glycerine
Table of Content
Manufacture of Glycerol
Properties of Glycerol
Uses of Glycerol
Dunstan's test for Glycerol
Glycerol is a trihydric alcohol. Its IUPAC name is propane-1, 2, 3-triol and in industry it is known as glycerine.
 
Manufacture of Glycerol
1. From Fats and Oils : On hydrolysis of fats and oils (i.e. glycerides or ester of higher fatty acids) glycerol and fatty acids are formed.

Glycerol is obtained as by-product in soap and candle industry.
2.By Fermentation of sugar :
Alcoholic fermentation of sugar gives 3% glycerol. However, if the fermentation is done in presence of sodium sulphite, the yield can be increased to 25%.

3. Synthesis (From Propene):

Properties of Glycerol
Physical
(a)It is a colourless, odourless, viscous and hygroscopic liquid, sweet in taste and non-toxic in nature.
(b)It is soluble in water and ethyl alcohol but insoluble in ether.
(c)The high viscosity and high boiling point of glycerol are due to strong hydrogen bonding.
Chemical :
The molecule of glycerol contains two primary -OH groups and one secondary -OH group. The carbon atoms in glycerol are indicated as α,β and α'.

Primary -OH groups are more reactive than secondary -OH group.
(i) Action of sodium : Only primary alcoholic groups are attacked one by one and secondary alcoholic group is not attacked.

(ii) Action of PCI5 :

(iii)Action of HCI or HBr :

(iv)Action of HI : Glycerol reacts with HI in two ways :
(a) When glycerol is warmed a small amount of hydrogen iodide, allyl iodide is formed.

(b)When glycerol is heated with excess of HI, the allyl iodide formed first is reduced to propene. Propene in presence of excess of HI forms iso-propyl iodide.

Note : Same products are obtained when glycerol is treated with phosphorus tri-iodide.
(v) Action of nitric acid :

Glycerol trinitrate is an yellow oily, poisonous liquid and causes headache. It explodes violently when heated rapidly or subjected to sudden shock.
C3H5 (ONO2)3 → 12CO2 + 10H2O + 6N2 + O2
It is a safer explosive when absorbed on kieselguhr and known as dynamite. Some other important explosives prepared from glycerol trinitrate are :
(a)Blasting gelatin : A mixture of glycerol trinitrate an cellulose nitrate (gun cotton).
(b)Cordite : It is obtained by mixing glycerol trinitrate with gun cotton and Vaseline. It is smokeless explosive.
(vi)Action of CH3COOH, acetic anhydride or acetyl chloride : Mono, di and trimesters of glycerol are formed.

(vii) Action of oxalic acid : Different products are formed under different conditions.
(a)At 110oC and with excess of oxalic acid, formic acid is formed. 
(b)At 260oC, allyl alcohol is formed.

(viii) Dehydration : Glycerol on dehydration by potassium hydrogen sulphate or phosphorus pentaoxide or concentrated sulphuric acid gives acrolein or acraldehyde which has a characteristic bad odour.

This reaction can be used as a test of glycerol.
(ix) Oxidation : Glycerol gives different oxidation products depending on the nature of oxidizing agent.

Oxidation of Glycerol with ............
(a)Dilute HNO3 gives mainly glyceric acid.
(b)Conc. HNO3 gives glyceric acid and tartronic acid.
(c)Bismuth nitrate gives mainly mesoxalic acid.
(d)Fenton's reagent (H2O2 + F2SO4) or NaOBr or Br2-water in presence of Na2CO3gives glyceraldehydes and dihydroxy acetone.
(e) Solid KMnO4, gives oxalic acid and carbon dioxide. The reaction is violent and explosion occurs.
Uses of Glycerol
(a) As a sweetening agent in confectionary, beverages and medicines due to nontoxic nature.
(b) As antifreeze in automobile radiators.
(c)In the manufacture of plastics & synthetic fibres.
(d) In the manufacture of explosives like dynamite and cordite.
(e) As a lubricant in watches.
(f) In the preparation of good quality of soaps, hand lotions, vanishing creams, shaving creams and tooth pastes.
(g)In the manufacture of various organic compounds like, formic acid, allyl alcohol, acrolein, etc.
(h) As a preservative.
(i) In the preparation of non-drying inks, printing inks and stamp pad inks
Table of Content
Manufacture of Glycerol
Properties of Glycerol
Uses of Glycerol
Dunstan's test for Glycerol
Glycerol is a trihydric alcohol. Its IUPAC name is propane-1, 2, 3-triol and in industry it is known as glycerine.
 
Manufacture of Glycerol
1. From Fats and Oils : On hydrolysis of fats and oils (i.e. glycerides or ester of higher fatty acids) glycerol and fatty acids are formed.

Glycerol is obtained as by-product in soap and candle industry.
2.By Fermentation of sugar :
Alcoholic fermentation of sugar gives 3% glycerol. However, if the fermentation is done in presence of sodium sulphite, the yield can be increased to 25%.

3. Synthesis (From Propene):

Properties of Glycerol
Physical
(a)It is a colourless, odourless, viscous and hygroscopic liquid, sweet in taste and non-toxic in nature.
(b)It is soluble in water and ethyl alcohol but insoluble in ether.
(c)The high viscosity and high boiling point of glycerol are due to strong hydrogen bonding.
Chemical :
The molecule of glycerol contains two primary -OH groups and one secondary -OH group. The carbon atoms in glycerol are indicated as α,β and α'.

Primary -OH groups are more reactive than secondary -OH group.
(i) Action of sodium : Only primary alcoholic groups are attacked one by one and secondary alcoholic group is not attacked.

(ii) Action of PCI5 :

(iii)Action of HCI or HBr :

(iv)Action of HI : Glycerol reacts with HI in two ways :
(a) When glycerol is warmed a small amount of hydrogen iodide, allyl iodide is formed.

(b)When glycerol is heated with excess of HI, the allyl iodide formed first is reduced to propene. Propene in presence of excess of HI forms iso-propyl iodide.

Note : Same products are obtained when glycerol is treated with phosphorus tri-iodide.
(v) Action of nitric acid :

Glycerol trinitrate is an yellow oily, poisonous liquid and causes headache. It explodes violently when heated rapidly or subjected to sudden shock.
C3H5 (ONO2)3 → 12CO2 + 10H2O + 6N2 + O2
It is a safer explosive when absorbed on kieselguhr and known as dynamite. Some other important explosives prepared from glycerol trinitrate are :
(a)Blasting gelatin : A mixture of glycerol trinitrate an cellulose nitrate (gun cotton).
(b)Cordite : It is obtained by mixing glycerol trinitrate with gun cotton and Vaseline. It is smokeless explosive.
(vi)Action of CH3COOH, acetic anhydride or acetyl chloride : Mono, di and trimesters of glycerol are formed.

(vii) Action of oxalic acid : Different products are formed under different conditions.
(a)At 110oC and with excess of oxalic acid, formic acid is formed. 
(b)At 260oC, allyl alcohol is formed.

(viii) Dehydration : Glycerol on dehydration by potassium hydrogen sulphate or phosphorus pentaoxide or concentrated sulphuric acid gives acrolein or acraldehyde which has a characteristic bad odour.

This reaction can be used as a test of glycerol.
(ix) Oxidation : Glycerol gives different oxidation products depending on the nature of oxidizing agent.

Oxidation of Glycerol with ............
(a)Dilute HNO3 gives mainly glyceric acid.
(b)Conc. HNO3 gives glyceric acid and tartronic acid.
(c)Bismuth nitrate gives mainly mesoxalic acid.
(d)Fenton's reagent (H2O2 + F2SO4) or NaOBr or Br2-water in presence of Na2CO3gives glyceraldehydes and dihydroxy acetone.
(e) Solid KMnO4, gives oxalic acid and carbon dioxide. The reaction is violent and explosion occurs.
Uses of Glycerol
(a) As a sweetening agent in confectionary, beverages and medicines due to nontoxic nature.
(b) As antifreeze in automobile radiators.
(c)In the manufacture of plastics & synthetic fibres.
(d) In the manufacture of explosives like dynamite and cordite.
(e) As a lubricant in watches.
(f) In the preparation of good quality of soaps, hand lotions, vanishing creams, shaving creams and tooth pastes.
(g)In the manufacture of various organic compounds like, formic acid, allyl alcohol, acrolein, etc.
(h) As a preservative.
(i) In the preparation of non-drying inks, printing inks and stamp pad inks
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Answer: Glycerol reacts with oxalic acid at 110°C to give formic acid. Also it reacts with oxalic acid at 260-280°C to give allyl alcohol.
Explanation: hope this helps!
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