Module: 2 Lecture: 8 BENZOIC ACID
Transcription
Module: 2 Lecture: 8 BENZOIC ACID
Module:2 Lecture:8 Benzoic acid Dr. N. K. Patel Module: 2 Lecture: 8 BENZOIC ACID INTRODUCTION Benzoic acid, C6H5COOH or C7H6O2 is a colourless crystalline solid and a simple aromatic carboxylic acid. The name derived from gum benzoin, which was the only source for benzoic acid for long time. The dry distillation of gum benzoin was first described by Nostradamusin1556, and then by Alexius Pedemontanusin1560 and Blaise de Vigenère in 1596. In 1830 Pierre Robiquet and Antoine Boutron-Charlard produced benzaldehyde through a variety of experiences based on amygdalin, obtained from bitter almonds but they failed in working out a proper interpretation of the structure of amygdalin that would account for it, and thus missed the identification of the benzoyl radical C7H5O-. This last step was achieved by Justus von Liebig and Friedrich Wöhler in 1832, who determined the composition of benzoic acid. Salts of benzoic acid are used as a food preservative. Salkowski discovered the antifungal abilities of benzoic acid in 1875, which was used for a long time in the preservation of benzoate-containing cloudberry fruits. The salts and esters of benzoic acid are known as benzoates. MANUFACTURE Raw materials Basis: 1000kg Benzoic acid from phthalic anhydride Phthalic anhydride 1350kg Catalyst 12.5kg NPTEL 1 Module:2 Lecture:8 Benzoic acid Dr. N. K. Patel Reaction Manufacture process Caustic soda Carbon dioxide Benzoic acid Neutralizer Phthalic anhydride Catalyst Column Kettle Steam Steam Waste Figure: Manufacture of Benzoic acid from Phthalic anhydride Block diagram of manufacturing process Diagram with process equipment Animation The process consist of two steps, first is manufacture of phthalic anhydride from naphthalene or o-xylene and second is manufacture of benzoic acid from phthalic anhydride via oxidation. Phthalic anhydride along with 2 – 6% catalyst consisting equal parts of chromium and disodium phthalate were charged into kettle. The charge was heated to 2000C and introduced 2 – 20parts of steam/hr below the surface of NPTEL 2 Module:2 Lecture:8 Benzoic acid Dr. N. K. Patel mixture. Water, benzoic acid and phthalic acid was refluxed to the reaction mass and carbon dioxide vented out. The reaction was continued until the mixture contain less than 5% phthalic acid. Caustic soda was added to reaction mixture for complete separation of benzoic acid from the unreacted phthalic acid before distillation. Benzoic acid is separated from reaction mixture by distillation. Catalyst was reused for several batches and finally catalyst was recovered by dissolving the residue in a solution of soda ash and filtering off the metal precipitate. Alternative procedure Benzoic acid may be prepared by passing vapours of phthalic anhydride mixed with steam over a stationary catalyst maintained at a temperature 380 – 4200C. A suitable contact mass mixture consists of an equal amount of copper carbonate and calcium hydroxide uniformly coated on pre-size pumice granules. Raw materials Basis: 1000kg Benzoic acid from toluene by air oxidation Toluene 850kg Air 60000Cu.ft. Catalyst Small quantity Reaction Manufacture process Toluene was mixed with 0.1 – 0.3% cobalt naphthenate catalyst and charged into a reactor. Air was sparged in the reactor until 40% of toluene oxidized. Reaction mass was maintained at 148.90C temperature and 40 – 70psi pressure. The reaction mixture was then sent for distillation after 40% conversion where unreacted toluene and by-product benzaldehyde was removed. The toluene was recycled back to process. NPTEL 3 Module:2 Lecture:8 Benzoic acid Recycle toluene Dr. N. K. Patel Vent gases Hot water Water Water Scrubber Mixer Water Cooler Toluene Catalyst Separator Reactor Distillation column Water Air Benzoic acid Filter Heavy ends Figure: Manufacture of Benzoic acid from Toluene by air oxidation Block diagram of manufacturing process Diagram with process equipment Animation The bottom stream from the column was mixed with hot water to extract benzoic acid. The aqueous layer was separated and cool to precipitate benzoic acid, which was filtered and washed to get technical grade product. Advantages It gives chlorine free benzoic acid To get better yield Good control of by-products formation NPTEL 4 Module:2 Lecture:8 Benzoic acid Dr. N. K. Patel Engineering problems Design for efficient gas-liquid contacting and economic recovery of organics fractions which contains water in the second stage are the two main design problems. Engineering aspect Preparation of catalyst The catalyst is prepared by the direct addition of equivalent amounts of chromium hydroxide and caustic soda to the reaction vessel. PROPERTIES Molecular formula Molecular weight Appearance Odour Boiling point Melting point Density Flash point Auto ignition temp Solubility : C7H6O2 : 122.12gm/mole : Colourless crystalline solid : Pungent : 249.00C : 121.70C : 1.316gm/cm3 : 121.10C : 571.10C : Slightly soluble in water, soluble in alcohol, chloroform, ether, benzene, carbon disulfide, turpentine USES Benzoic acid is used to determine the heat capacity of a bomb calorimeter To produce benzoyl chloride and benzyl benzoate Benzoic acid and its salts are used as a food preservatives It is a constituent of Whitfield’s ointment which is used for the treatment of fungal skin diseases like ringworm, tinea and athlete’s foot Major ingredient in both tincture of benzoin and Friar’s balsam which are used as antiseptics and inhalant decongestants As expectorant and analgesic NPTEL 5 Module:2 Lecture:8 Benzoic acid Dr. N. K. Patel As medicinal, industrial preserving foods, fats, alkaloid solutions, fruit juices, cosmetics, resin preparations, plasticizers, synthetic fibres and intermediates, dyes as mordant in calico printing As curing tobacco As standard in volumetric and calorimetric analysis and pharmaceutics aid NPTEL 6