Sessions

October 25, 2020    Paris, France

Webinar on Industrial Chemistry

Sessions

Industrial Chemistry is the branch of chemistry which applies physical and chemical processes both towards the transformation of raw materials into products that are of benefit to humans. The main areas of research and teaching are on the catalyst and process development, mechanical and thermal unit operations and process of chemical change engineering. It enables efficient production of basic, intermediate and end products. Industrial chemistry is a component of the long chain in the design and manufacturing process. Industrial chemists affect the ideas, the planning, the testing, and prototyping of latest industrial products. In order to plan something entirely new help solve the major problems of the planet their essential skills are, in-depth knowledge and application of chemistry and creativity with chemicals.

 In a general sense, industrial chemists are involved in:

  • Food Microbiology
  • Organic Chemistry
  • Inorganic Chemistry
  • Physical Chemistry
  • Analytical Chemistry
  • Chemical Technology

Photochemistry is the branch of chemistry concerned with the chemical effects of sun light. For the industrial chemist, photochemistry is simply one of the many the various means of manufacturing chemical compounds or bringing them into reaction. What is going on in a chemical reaction the study of chemical reactions, isomerization and physical behaviour that may occur under the influence of visible and/or ultraviolet light is called Photochemistry. However, it has some advantages over thermal, catalytic and other methods that immediately fascinate him. These include:
(1) Selective activation of individual reactants,
(2) Specific reactivity of electronically excited molecules,
(3) Low thermal load on the reaction system.

 

Petro chemistry is a part of chemistry that studies the transformation of petroleum and gas into useful products and raw materials for chemical products. Main ingredients of these fossil material sources are especially aliphatic and aromatic hydrocarbons, which are processed in petrochemical plants.  Over a lot of  years, natural changes in organic materials have produced petroleum which has accumulated under the earth’s surface. Petroleum rich areas are generally found in regions that support retention, such as porous sandstones. Crude oils Average composition rates are 84% carbon, 14% hydrogen, 1%-3% sulphur, &less than1% each of nitrogen, oxygen, metals and salts. Depending on the sulphur content crude oils are either categorized as sweet or sour. A process called fractional distillation separates crude oil into various segments. Fractions at the top have lower boiling points than fractions at the bottom. The bottom fractions are heavy & are thus "cracked" into lighter and more useful products. There are problems relating to the increasing scarcity of workable hydrocarbon deposits.

  • Energy economics
  • Near-Infrared Spectroscopy
  • Methods used in Petroleum Geology
  • Geo chemistry
  • Basics of crude oil
  • The petroleum revolution
  • Fractional distillation
  • Pipelines & Transportation
  • Enhanced Oil and Gas Recovery
  • Geology & Exploration

Inorganic chemistry deals with the properties and reactivity of all chemical elements. Chemistry Conferences advanced interests concentrate on understanding the role of metals in biology and also the environment, the planning and properties of materials for energy and details, fundamental studies on the nanotechnology.Key topics in the field of inorganic chemistry includes Descriptive Inorganic Chemistry, Basic (General) Types of Inorganic Chemistry Reactions, Chemistry of Inorganic Compounds, Geochemistry, Extraction (incl. Mining) of Inorganic Chemicals, Bioinorganic Chemistry, Synthetic, Industrial Chemistry. Inorganic Chemistry Topics identifiable from the Periodic Table include-

  • Groups I and II
  • Group III
  •  Group IV
  • Group V
  • Group VI
  • Group VII
  • Transition Metals

 

There’s a reason the “organo” comes first in “organometallic chemistry”—our goal is generally the creation of recent bonds in organic compounds. The metals tend to simply be along for the ride (although their influence, obviously, is essential). And the fact is that you can do things with organometallic chemistry that you just cannot do using straight-up chemical science. Metal-organic compounds are a class of chemical compounds that contain metals and organic ligands, which confer solubility in organic solvents or volatility. Metal coordination complexes of organic ligands, e.g., metal acetylacetonates, lakesides. Many complex feature coordination bonds between a metal& organic ligands. The organic ligands often bind the metal through a heteroatom e.g. oxygen/nitrogen, during in which case such compounds are considered coordination compounds. Organometallic compounds undergo several important reactions.

  • Oxidative addition and reductive elimination
  • Transmetalation
  • Carbometalation
  • Hydrometalation
  • Electron transfer
  • Beta-hydride eliminatio
  • Organometallic substitution reaction
  • Carbon-hydrogen bond activation
  • Cyclometalation
  • Nucleophilic abstraction

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