Dimethyl ether

Dimethyl ether

IUPAC name	methoxymethane
Other names	DME, wood ether dimethyl oxide Demeon, Dymel A
Identifiers
CAS number	115-10-6
RTECS number	PM3780000
SMILES	COC
Properties
Molecular formula	C₂H₆O CH₃OCH₃
Molar mass	46.07 g/mol
Appearance	colourless gas with typical smell
Density	1.59, gas (vs air) 668 kg/m³, liquid
Melting point	-138.5°C (134.6 K)/(-217.3°F) 242.37°R
Boiling point	-23°C (254 K)/(-12.82°F) 446.85°R
Solubility in water	328 g/100 mL (20°C)
Structure
Dipole moment	1.30 D (gas)
Hazards
MSDS	External MSDS
MSDS	External MSDS
Main hazards	highly flammable
R-phrases	R12
S-phrases	S33
Flash point	-41°C/(-41.8°F) 417.87°R
Related Compounds
Related ethers	polyethylene glycol
Related compounds	methanol
Supplementary data page
Structure and properties	ε_r, etc.
Thermodynamic data	Phase behaviour Solid, liquid, gas
Spectral data	MS
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa) Infobox disclaimer and references

Dimethyl ether, also known as methoxymethane, oxybismethane, methyl ether, wood ether, and DME, is a colorless gaseous biomass.

Production

Conventional DME production uses the methanol dehydration method.^[1] For mass production of DME as a fuel other methods are being considered, the main one being DME synthesis from hydrogen and CO gas, also known as syngas.^[2]

DME can be produced from methanol by combining two methanol molecules to produce a DME molecule and a water molecule.^[3] This is a reversible reaction.^[3] This can be shown in the following equation:

methanol → dimethyl ether + water

2CH₃OH → CH₃OCH₃ + H₂O

There are various companies developing this method of DME production, the most active one being JFE Holding in Japan.^{[citation needed]} The DME-synthesis method has a better overall efficiency because with methanol dehydration,^{[citation needed]} the methanol is firstly produced from a base source such as LPG, NG or coal via synthesis and then this is converted into DME.^{[citation needed]} This method attempts to cut out the intermediate methanol production and produce DME from LPG, NG, coal or even biomass in one process.^{[citation needed]}

DME production from solid raw materials such as syngas required for the DME-synthesis. To allow for more efficient gasification the biomass and coal have various preparation processes; such as chipping of the biomass or producing slurry of the coal. To ensure that the DME produced is clean there are various gas scrubbing, cleaning and purification processes. DME production from methane can simply use a methane reforming method to produce the syngas for the DME synthesis.

The image below shows a simple representation of the various processes from raw materials to DME.

Applications

DME is used as:^[4]

A refrigerant
A (co-)blowing agent for foam
A propellant for aerosol products
A solvent
An extraction agent
A chemical reaction medium
A fuel for welding cutting and brazing
A multi-purpose fuel

As a fuel

DME can be used as a fuel in diesel engines,^[5] petrol engines (30% DME / 70% LPG) and gas turbines. It works particularly well in diesel engines due to its high cetane number, which is greater than 55 compared to diesel which is 38-53.^[6]

Currently the EU is considering DME in its potential biofuel mix in 2030.^[7]

Solvent

Like reflux temperature i.e. -23°C) which the solvent can be used. One advantage of using dimethyl ether as a solvent is that is readily removed by evaporation, especially from a product which has a relatively low boiling point.

References

^ demeon.com, production process
^ JFE-holdings.co.jp, dme
^ ^a ^b gov.br, dehydration catalyst
^ demeon.com, Akzo Nobel DME
^ nycomb.se, Nycomb Chemicals company
^ topsoe.com, Haldor Topsoe Chemicals Company
^ refuel.eu, EU Refuel biofuel project

Categories: Fuels

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Dimethyl_ether". A list of authors is available in Wikipedia.