Methionine is an essential amino acid used as a feed additive. It can be produced through two main methods - as methionine itself or as a methionine analogue. Intratec offers reports on the economics of specific methionine production processes, including capital costs, operating costs, raw material consumption and production costs over four years. Each report provides a thorough analysis of the process as well as summary tables and references. Intratec has extensive experience analyzing industrial process economics and uses consistent methodologies to develop comprehensive reports.
Mysore Call Girls 8617370543 WhatsApp Number 24x7 Best Services
Â
Understand Methionine production costs
1. Know the capital
investment
required
Examine the
operating costs &
raw materials
consumption
Methionine is one of the amino acids that cannot be synthesized by animal organisms and which are
essential for animal life. Its major use is as a feed additive, and a peculiarity of Methionine is that it
can be supplied in two major varieties: as Methionine itself or as a Methionine Analogue compound –
for animal nutrition, both are equivalent.
The Intratec portfolio (www.intratec.us/our-portfolio) includes reports examining specific Methionine
production processes. Each report presents one-time costs associated with the construction of an
industrial plant and the continuing costs associated with the daily operation of such a plant. General
information included in our reports is presented below.
AN INTRODUCTION TO METHIONINE
PROCESS TECHNOLOGY THOROUGH UNDERSTANDING
* Description & applications
* Production pathways diagram
* Product(s) generated & raw material(s) consumed
* Physico-chemistry highlights
* Industrial site production capacity definition
* Detailed process block flow scheme & description
* Key process input & output figures (including raw material(s) consumption)
* Labor requirements
CAPITAL INVESTMENT BREAKDOWN
* Total fixed capital required (ISBL, OSBL and contingency)
* Working capital
* Costs incurred during industrial plant commissioning and start-up
* Multi-regional fixed capital analysis
PRODUCTION COST DETAILED LOOK
* Manufacturing variable costs (raw materials and utilities required)
* Manufacturing fixed costs (e.g., labor and maintenance costs, operating charges, plant overhead)
* Depreciation and corporate overhead costs
* Production cost history (4-year timeframe)
Understand
Methionine
production costs
Industrial Process Economics
About Methionine
Reports
Coverage of Methionine Process Economics Reports
Each report examines one specific Methionine production process, including:
PROCESS ECONOMICS QUICK SUMMARY TABLE
LABOR WAGE RATES AND PRICING BASIS
REFERENCES & ANALYSIS METHODOLOGY
2. About our Methodology
Intratec has distilled the expertise gained from more than a decade supporting companies worldwide to devise consistent
methodologies, which ensures the development of holistic, coherent and consistent reports.
Intratec's highly experienced engineers start the development of process economics reports with in-depth, comprehensive research on
the technology examined, encompassing patents and available technical literature, non-confidential information provided by
technology licensors and Intratec's in-house database.
This exhaustive research provides a clear and consistent understanding of the process technology studied, including chemical,
biological and/or physical transformations occurring in the target process, as well as reactants required and products formation. That
knowledge is compiled into a detailed process block flow scheme and a mapping of key process input & output figures (including raw
materials consumption).
Finally, in the assessment of the economic figures of the process technology under analysis, Intratec’s team relies on an extensive in-
house database and robust cost models. Our cost models were founded on a number of established cost-estimating methods, based
on mathematical and statistical processing of an extensive volume of actual cost data of well-known industrial processes.
For a 10-page description of our methodology, visit www.intratec.us/reports/industrial-processes-economics
Reports Focused on Methionine Production Economics
ECONOMICS OF DL-METHIONINE VIA CARBONATE PROCESS (MET E11A)
Economics of DL-Methionine production from 3-(Methylthio)propionaldehyde (MMP) and hydrogen cyanide (HCN) in the USA via a
typical carbonate process.
ECONOMICS OF BIO-METHIONINE FROM RAW SUGAR (MET E21F)
This report presents the economics of L-Methionine production from raw sugar in Brazil using a fermentation process similar to
Metabolic Explorer (MetEx) process.
ECONOMICS OF BIO-METHIONINE PRODUCTION FROM GLUCOSE (MET E31A)
The process presented in this report is the same examined in the report “MET E21F”, with two exceptions: (1) the plant is constructed
in the United States, and (2) the raw material used is glucose syrup.
For a complete and updated list of available reports, visit www.intratec.us/products/methionine-production-processes
3. Industrial Process Economics Reports Family
Intratec's Industrial Process Economics reports are a family of reports presenting techno-economic evaluations of specific processes
employed in the production of chemicals or utilities. Our portfolio includes more than 600 of these reports, covering established and
early-stage process technologies used in the chemical, petrochemical, oil, plastic, renewable, alternative energy & allied sectors.
See below the list of chemicals and utilities whose processes are covered in our process economics reports. For a complete and
updated list, visit www.intratec.us/our-portfolio.
3-Hydroxypropionic Acid
Acetone
Acetylene
Acetyls
Acrylic Acid and Derivatives
Acrylic/Maleic Copolymer
Acrylonitrile
Adipic Acid
Aldehydes
Alkylbenzenes
Amino Acids
Ammonia
Aniline
Biodiesel
Bisphenol A
BTX
Butadiene and C4's
C6's
Caprolactam
Carbon Monoxide
Chlorine and Derivatives
Chloroprene
Citric Acid
Cosmetics
Cumene
Detergents
Dicyclopentadiene
Diesel
Dimethyl Carbonate (DMC)
Dimethyl Terephthalate
Diols
Diphenyl Carbonate
Dyes & Pigments
Electricity
Epichlorohydrin
Ethanol
Ethylene
Ethylene Oxide
Fertilizers
Fibers
Fire Retardants
Food Additives
Furans and Derivatives
Glycerol
Glycols
Hydrogen
Hydrogen Cyanide
Hydrogen Peroxide
Industrial Gases
Insecticides
Isocyanates
Isophthalic Acid
Isoprene
Lactic Acid
Linear Alpha Olefins
Methacrylic Acid and Derivatives
Methanol
MTBE
Nitric Acid
Nitro Aromatics
Nylon
Oxalic Acid
Oxo Alcohols
Pentaerythritol
PET
Pharmaceuticals
Phenol
Phosgene
Phthalic Anhydride
Polyacrylate
Polyacrylonitrile
Polyalphaolefins
Polycarbonates
Polyesters
Polyethers
Polyethylenes
Polylactic Acid (PLA)
Polypropylene
Polyurethanes
Propanol and Isopropanol
Propylene
Propylene Oxide
PVC
Reformate
Resins
Silanes
Silicones
Siloxanes
Sodium Hydroxide
Speciality Polymers
Styrenics
Succinic Acid
Sulfuric Acid
Synhetic Rubbers
Synthesis Gas
Vitamins
Terephthalic Acid
Trimethylolpropane
Urea
Vinyls