What are the properties for acetic acid ?
Certificate of Acid Acetic’s Product TEST METHOD RESULT LIMIT(SPEC) Appearance MAP-SM111 Clear; free from matter in suspension Clear; free from matter in suspension Purity (WT %) MAP-70014 Greater than 99.85 Min 99.85 Water (WT %) ASTM-D1364 LESS THAN 0.15 Max 0.15 Formic ACID (WT %) ASTM-D3546 LESS THAN 0.050 Max 0.050 Density@20°CKg/lit ASTM-D1298 1.048-1.051 1.048-1.051 Acetaldehyde (WT %) ASTM-D2191 LESS THAN 0.02 Max 0.02 Permanganate Time@20C, hours MAP-70019 Greater than 2 hours Minimum 2 hours Crystallization point ASTM-D 1493 Greater than 16.35 °C 16.35 °C Min Sulphates(as SO4) MAP-70021 LESS THAN 1PPM Max 1ppm Chloride(as CL) MAP-70020 LESS THAN 1PPM Max 1ppm Total Iron(ppm) ASTM-E394 LESS THAN 1.0 Max 1.0 Propionic Acid (WT %) M602.515 LESS THAN 0.010 Max 0.010 Non volatile matter (WT%) ASTM-D1353 LESS THAN 0.003 Max 0.003 Heavy metals(as Pb) Determination by Atomic Absorption LESS THAN 0.5 Max 0.5ppm Color(APHA) ASTM-D1209 BELOW…
Acetic acid MSDS
Our clinets can check this file for MSDS Acetic Acid
Producing acetic acid
Acetic acid can be oxidized to acetaldehyde by air, oxide by ethanol (ethyl alcohol) and acid by butane and butane in industry. Today, vinegar is produced from the reaction between methanol and carbon monoxide by a rhodium-ion iodine catalyst developed by Monsanto in the 1960s. This method is cost-effective because methanol and carbon monoxide are cheap and cost-effective. Another method is the production of acetic acid butane oxidation Heat butane with oxygen in the presence of manganese, cobalt and chromium metal ions that produce peroxide, which produces acetic acid by decomposition of acetic acid. The third method of acetaldehyde oxidation Acetaldehyde is oxidized by air to form acetic acid under mild conditions in the presence of simple metal catalysts such as manganese and chromium. 2CH3CHO + 2O2—–> 2CH3COOH This reaction also brings with it by-products, which include formic acid, acetyl acetate, and due to their low boiling point, acetic acid…
Technology and chemistry
We see the presence of chemistry in everything and everywhere. From the air we breathe and the water we drink to the products and technologies we use every day, even our body tissues and their health owe much to chemistry. Innovation in chemistry has brought numerous economic and social benefits: a longer and healthier life due to advances in medical science; Improving living standards due to chemical fertilizers used in the production of products and chemicals used in water treatment; And instant access to information anywhere, anytime, anywhere, thanks to smartphones and other smart devices, are just some of the benefits of chemistry innovation. Necessity of having chemistry to have innovative products are improving the world around us, making our lives healthier, safer, more sustainable and more productive. Chemistry in our daily lives Through chemistry, the basic building blocks of the earth, such as carbon, hydrogen, and oxygen, have become…