The Full Wiki

Nitrogen tetroxide: Wikis

Advertisements

Note: Many of our articles have direct quotes from sources you can cite, within the Wikipedia article! This article doesn't yet, but we're working on it! See more info or our list of citable articles.

Encyclopedia

(Redirected to Dinitrogen tetroxide article)

From Wikipedia, the free encyclopedia

Dinitrogen tetroxide
Dinitrogen tetroxide
IUPAC name
Identifiers
CAS number 10544-72-6 Yes check.svgY
PubChem 25352
EC number 234-126-4
UN number 1067
RTECS number QW9800000
Properties
Molecular formula N2O4
Molar mass 92.011 g/mol
Appearance colourless gas
Density 1.443 g/cm3 (liquid, 21 °C)
Melting point

−11.2 °C (261.9 K)

Boiling point

21.1 °C (294.3 K)

Solubility in water reacts
Vapor pressure 96 kPa (20 °C)[1]
Refractive index (nD) 1.00112
Structure
Molecular shape planar, D2h
Dipole moment zero
Thermochemistry
Std enthalpy of
formation
ΔfHo298
−35.05 kJ/mol
Standard molar
entropy
So298
150.38 J K−1 mol−1
Hazards
MSDS External MSDS
EU Index 007-002-00-0
EU classification Very toxic (T+)
Corrosive (C)
R-phrases R26, R34
S-phrases (S1/2), S9, S26, S28, S36/37/39, S45
NFPA 704
NFPA 704.svg
0
3
0
OX
Flash point Non-flammable
Related compounds
Related nitrogen oxides Nitrous oxide
Nitric oxide
Dinitrogen trioxide
Nitrogen dioxide
Dinitrogen pentoxide
 Yes check.svgY (what is this?)  (verify)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Dinitrogen tetroxide (nitrogen tetroxide or nitrogen peroxide) is the chemical compound N2O4. It forms an equilibrium mixture with nitrogen dioxide; some call this mixture dinitrogen tetroxide, some call it nitrogen dioxide. Dinitrogen tetroxide is a powerful oxidizer, highly toxic and corrosive. N2O4 is hypergolic with various forms of hydrazine, i.e., they burn on contact without a separate ignition source, making them popular bipropellant rocket fuels. It is a useful reagent in chemical synthesis.

Contents

Structure and properties

The molecule is planar with an N-N bond distance of 1.78 Å and N-O distances of 1.19 Å. Unlike NO2, N2O4 is diamagnetic.[2] It is also colorless but can appear brownish yellow liquid due to the presence of NO2 according to the following equilibrium:

N2O4 2 NO2

Higher temperatures push the equilibrium towards nitrogen dioxide. Inevitably, some nitrogen tetroxide is a component of smog containing nitrogen dioxide.

Production

Nitrogen dioxide is made by the catalytic oxidation of ammonia: steam is used as a diluent to reduce the combustion temperature. Most of the water is condensed out, and the gases are further cooled; the nitric oxide that was produced is oxidized to nitrogen dioxide, and the remainder of the water is removed as nitric acid. The gas is essentially pure nitrogen tetroxide, which is condensed in a brine-cooled liquefier.

Use as a rocket propellant

Dinitrogen tetroxide is one of the most important rocket propellants ever developed, much like the German developed hydrogen peroxide-based T-Stoff oxidizer used in their World War II rocket propelled combat aircraft designs such as the Messerschmitt Me 163 Komet, and by the late 1950s it became the storable oxidizer of choice for rockets in both the USA and USSR. It is a hypergolic propellant often used in combination with a hydrazine-based rocket fuel. One of the earliest uses of this combination was on the Titan rockets used originally as ICBMs and then as launch vehicles for many spacecraft. Used on the U.S. Gemini and Apollo spacecraft, it continues to be used on the Space Shuttle, most geo-stationary satellites, and many deep-space probes. It now seems likely that NASA will continue to use this oxidizer in the next-generation 'crew-vehicles' which will replace the shuttle. It is also the primary oxidizer for Russia's Proton rocket and China's Long March rockets.

When used as a propellant, dinitrogen tetroxide is usually referred to simply as 'Nitrogen Tetroxide' and the abbreviation 'NTO' is extensively used. Additionally, NTO is often used with the addition of a small percentage of nitric oxide, which inhibits stress-corrosion cracking of titanium alloys, and in this form, propellant-grade NTO is referred to as "Mixed Oxides of Nitrogen" or "MON". Most spacecraft now use MON instead of NTO, for example, the Space Shuttle reaction control system uses MON3 (NTO containing 3wt%NO). [2]

On 24 July 1975, NTO poisoning nearly killed the three astronauts on board the Apollo-Soyuz Test Project during its final descent. This was due to a switch left in the wrong position, which allowed NTO fumes to vent into the spacecraft from a cabin air intake. Upon landing, the crew was hospitalized 14 days for chemical-induced pneumonia and edema.

Power generation using N2O4

The tendency of N2O4 to reversibly break into NO2 has led to research into its use in advanced power generation systems as a so-called dissociating gas. "Cool" nitrogen tetroxide is compressed and heated, causing it to dissociate into nitrogen dioxide at half the molecular weight. This hot nitrogen dioxide is expanded through a turbine, cooling it and lowering the pressure, and then cooled further in a heat sink, causing it to recombine into nitrogen tetroxide at the original molecular weight. It is then much easier to compress to start the entire cycle again. Such dissociative gas Brayton cycles have the potential to considerably increase efficiencies of power conversion equipment.

Chemical reactions

Advertisements

Intermediate in the manufacture of nitric acid

Nitric acid is manufactured on a large scale via N2O4. This species reacts with water to give both nitrous acid and nitric acid:

N2O4 + H2O → HNO2 + HNO3

The coproduct HNO2 upon heating disproportionates to NO and more nitric acid.

Synthesis of metal nitrates

N2O4 behaves as the salt [NO+][NO3], the former being a strong oxidant:

2 N2O4 + M → 2 NO + M(NO3)2

where M = Cu, Zn, or Sn.

References

  1. ^ [1]
  2. ^ Holleman, A. F.; Wiberg, E. "Inorganic Chemistry" Academic Press: San Diego, 2001. ISBN 0-12-352651-5.

External links


Advertisements






Got something to say? Make a comment.
Your name
Your email address
Message