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Nitrogen and Oxygen

The fluids contained within petroleum accumulations are mixtures of organic compounds, which are mostly hydrocarbons (molecules composed of hydrogen and carbon atoms), but may also include sulphur, nitrogen, oxygen and metal compounds. This section will concentrate on the hydrocarbons, but will explain the significance of the other compounds in the processing of the fluids. [Pg.89]

Octet rule (Section 1 3) When forming compounds atoms gain lose or share electrons so that the number of their va lence electrons is the same as that of the nearest noble gas For the elements carbon nitrogen oxygen and the halo gens this number is 8... [Pg.1290]

The complex nature of coal as a molecular entity (2,3,24,25,35,37,53) has resulted ia the chemical explanations of coal combustion being confined to the carbon ia the system. The hydrogen and other elements have received much less attention but the system is extremely complex and the heteroatoms, eg, nitrogen, oxygen, and sulfur, exert an influence on the combustion. It is this latter that influences environmental aspects. [Pg.73]

Iodine forms compounds with all the elements except sulfur, selenium, and the noble gases. It reacts only indirectly with carbon, nitrogen, oxygen, and some noble metals such as platinum. [Pg.360]

The alkylation desctibed in this article is the substitution of a hydrogen atom bonded to the carbon atom of a paraffin or aromatic ring by an alkyl group. The alkylations of nitrogen, oxygen, and sulfur are described in separate articles (see Amines Ethers). [Pg.45]

Titanium triiodide can be made by direct combination of the elements or by reducing the tetraiodide with aluminum at 280°C in a sealed tube. Til reacts with nitrogen, oxygen, and sulfur donor ligands to give the corresponding adducts (148). [Pg.132]

PERMANENT GASES Table 3 lists the permeabilities of oxygen [7782-44-7] nitrogen [7727-37-9] and carbon dioxide [124-38-9] for selected barrier and nonbarrier polymers at 20°C and 75% rh. The effect of temperature and humidity are discussed later. For many polymers the permeabihties of nitrogen, oxygen, and carbon dioxide are in the ratio 1 4 14. [Pg.488]

Flame Temperature. The adiabatic flame temperature, or theoretical flame temperature, is the maximum temperature attained by the products when the reaction goes to completion and the heat fiberated during the reaction is used to raise the temperature of the products. Flame temperatures, as a function of the equivalence ratio, are usually calculated from thermodynamic data when a fuel is burned adiabaticaHy with air. To calculate the adiabatic flame temperature (AFT) without dissociation, for lean to stoichiometric mixtures, complete combustion is assumed. This implies that the products of combustion contain only carbon dioxide, water, nitrogen, oxygen, and sulfur dioxide. [Pg.517]

Since air is a mixture of predominantly nitrogen, oxygen, and a host of lesser impurities, there has been less interest in developing precise thermodynamic properties. The only recent correlation of thermodynamic properties is that published by Vasserman, et al. (Barouch, Israel Program for Scientific Translations, Jerusalem, 1970), and is based on the principle of corresponding states because of the scarcity of experimental data. [Pg.1126]

Products of Combustion For lean mixtures, the products of combustion (POC) of a sulfur-free fuel consist of carbon dioxide, water vapor, nitrogen, oxygen, and possible small amounts of carbon monoxide and unburned hydrocarbon species. Figure 27-12 shows the effect of fuel-air ratio on the flue gas composition resulting from the combustion of natural gas. In the case of solid and liquid fuels, the... [Pg.2379]

The less common heteroatoms are those other than nitrogen, oxygen and sulfur (arid selenium and tellurium which are treated alongside sulfur), i.e. phosphorus, arsenic, antimony, bismuth, the halogens, silicon, germanium, tin, lead, boron and the transition metals. [Pg.2]

Part 2 (Volumes 2 and 3) deals with mono- and poly-cyclic compounds with one or more six-membered heterocyclic ring, with nitrogen, oxygen and sulfur as the heteroatoms. Volume 2 contains the six-membered rings with one nitrogen atom (Part 2A) and Volume... [Pg.2]

Compare these two basis sets and note the differences between them for carbon, nitrogen, oxygen and fluorine (you can use GFPrinf or GHnput with a system containing these elements one example, fluoroacetamide, is illustrated at the left). What would you expect to be the advantages of the changes that you see ... [Pg.109]

Effect of Some Nitrogen-, Oxygen-, and Sulfur-Containing Groups on the Rate Constants for the Reaction of Chloro-s-triazine Derivatives with Various Nucleophiles... [Pg.342]

See other pages where Nitrogen and Oxygen is mentioned: [Pg.76]    [Pg.630]    [Pg.14]    [Pg.498]    [Pg.130]    [Pg.56]    [Pg.92]    [Pg.304]    [Pg.123]    [Pg.237]    [Pg.477]    [Pg.206]    [Pg.45]    [Pg.468]    [Pg.363]    [Pg.280]    [Pg.495]    [Pg.224]    [Pg.212]    [Pg.327]    [Pg.49]    [Pg.140]    [Pg.2365]    [Pg.2372]    [Pg.2]    [Pg.2]    [Pg.47]    [Pg.29]    [Pg.86]    [Pg.635]    [Pg.1069]    [Pg.13]    [Pg.1]    [Pg.110]    [Pg.139]    [Pg.367]   
See also in sourсe #XX -- [ Pg.349 , Pg.350 ]



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Acylation of Nucleophilic Oxygen and Nitrogen Groups

Addition of Carbon, Oxygen, Nitrogen, and Sulfur Nucleophiles

Addition of Oxygen and Nitrogen Nucleophiles

Alkenes nitrogen and oxygen

Allylation of Oxygen and Nitrogen Nucleophiles

By Combustion of Selenium in Oxygen and Nitrogen Dioxide

Carbon, Nitrogen, Oxygen, Phosphorus, and Sulfur

Carbon, hydrogen, oxygen, and nitrogen

Competition Between Oxygen and Nitrogen

Containing Carbon, Hydrogen, Nitrogen, and Oxygen

Direct Combination of Nitrogen and Oxygen

Effects of Exposure to Hydrogen Peroxide Bubbled Air, Oxygen and Nitrogen

FUNCTIONAL COMPOUNDS CONTAINING OXYGEN, SULPHUR OR NITROGEN AND THEIR DERIVATIVES

Feedbacks Between the Nitrogen, Carbon and Oxygen Cycles

Five-membered Nitrogen- and Oxygen-containing Rings

Formation of Heterocycles Containing Nitrogen and Oxygen

Gold(lll) Complexes with Nitrogen and Oxygen Ligands

Heterocycles Containing Nitrogen, Oxygen, and Sulphur

Hybrid orbitals in oxygen and nitrogen

Hybridization of Nitrogen, Oxygen, Phosphorus, and Sulfur

Hybridization of Other Atoms Nitrogen and Oxygen

Mechanisms, of proton transfer between oxygen and nitrogen acids

Nitrogen (and Oxygen) Separation from Air

Nitrogen and Oxygen Donor Ligands

Nitrogen and Oxygen Heterocycles

Nitrogen and Oxygen NMR Spectra

Nitrogen and Oxygen NMR Spectroscopy

Nitrogen and oxygen atmospheric elements

Nitrogen and oxygen atoms

Nitrogen and oxygen containing compounds

Nitrogen, pure, azides for preparation removal of oxygen and water

Nitrogen, sulfur and oxygen

Nitrogen, sulfur and oxygen compounds

Nitrogen- and Oxygen-containing Rings

Oxygen and nitrogen cycle

Polymers Containing Oxygen, Nitrogen, Silicon, and Sulfur in the Backbone

Proton bonded to oxygen and nitrogen

Protons Attached to Oxygen and Nitrogen

Protons on Oxygen, Nitrogen, and Sulfur Atoms

Reactions at nitrogen and oxygen centres

Reactions with Oxygen and Nitrogen

Reactions with Oxygen, Ozone, and Nitrogen

Reactions with Oxygen- and Nitrogen-containing Radicals

Reactive oxygen and nitrogen species

Rearrangement to Electron-Deficient Nitrogen and Oxygen

Rearrangements to Electron-Deficient Nitrogen and Oxygen Centers

Recombination of oxygen and nitrogen

Recombination of oxygen and nitrogen atoms

Recovery of Nitrogen, Oxygen and Argon

Rings with Nitrogen and Oxygen

Separation of Oxygen and Nitrogen

Six-membered Nitrogen- and Oxygen-containing Rings

Sulfur, Oxygen and Nitrogen Molar Balances

The Role of Reactive Oxygen and Nitrogen Species

Two Nitrogen Atoms and One Oxygen Atom

With Oxygen and Nitrogen Nucleophiles

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