Dehydration of Ethanol

C2H5OH → C2H4 + H2O

अवलोकन

Ethanol is dehydrated to ethylene by concentrated sulfuric acid at 170 C or by passing over heated alumina. This elimination reaction removes water from adjacent carbon atoms to form the C=C double bond. At lower temperatures (140 C), diethyl ether forms instead via intermolecular dehydration.

प्रतिभागी

भूमिका पदार्थ गुणांक अवस्था
अभिकारक Ethanol C₂H₅OH 1 (l)
उत्पाद Ethylene C₂H₄ 1 (g)
उत्पाद Water H₂O 1 (l)

रोजमर्रा का उदाहरण

Brazil produces bio-ethylene from sugarcane ethanol using this dehydration, making green polyethylene for sustainable packaging.

औद्योगिक महत्व

Ethanol dehydration to ethylene is the basis of Brazil's bio-plastics industry, producing renewable polyethylene from sugarcane ethanol.

गुण

प्रकार
Organic
प्रतिवर्ती
हाँ
ऊर्जा
ऊष्माशोषी
ΔH
44.0 kJ/mol
उत्प्रेरक
Concentrated H₂SO₄ or Al₂O₃

Frequently Asked Questions

What is the equation for Dehydration of Ethanol?
The balanced equation is: C₂H₅OH → C₂H₄ + H₂O.
What type of reaction is Dehydration of Ethanol?
Dehydration of Ethanol is a organic reaction. It is reversible under certain conditions.
Is Dehydration of Ethanol exothermic or endothermic?
Dehydration of Ethanol is endothermic (absorbs energy). The enthalpy change (ΔH) is 44.0 kJ/mol.
What conditions are needed for Dehydration of Ethanol?
This reaction requires a catalyst (Concentrated H₂SO₄ or Al₂O₃).