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Smoking and

The diesel engine operates, inherently by its concept, at variable fuel-air ratio. One easily sees that it is not possible to attain the stoichiometric ratio because the fuel never diffuses in an ideal manner into the air for an average equivalence ratio of 1.00, the combustion chamber will contain zones that are too rich leading to incomplete combustion accompanied by smoke and soot formation. Finally, at full load, the overall equivalence ratio... [Pg.212]

The density of heavy fuels is greater than 0.920 kg/1 at 15°C. The marine diesel consumers focus close attention on the fuel density because of having to centrifuge water out of the fuel. Beyond 0.991 kg/1, the density difference between the two phases —aqueous and hydrocarbon— becomes too small for correct operation of conventional centrifuges technical improvements are possible but costly. In extreme cases of fuels being too heavy, it is possible to rely on water-fuel emulsions, which can have some advantages of better atomization in the injection nozzle and a reduction of pollutant emissions such as smoke and nitrogen oxides. [Pg.236]

Additives for Improving Combustion and for Reducing Smoke and Soot Emissions... [Pg.353]

Water drops condensed in the atmosphere have much larger dimensions than gas molecules hence they are subject to the interference phenomena mentioned at the end of the last section. This alters the color of the scattered light. Smoke and dust particles are also larger and may absorb as well. [Pg.677]

Adipic acid is an irritant to the mucous membranes. In case of contact with the eyes, they should be flushed with water. It emits acrid smoke and fumes on heating to decomposition. It can react with oxidizing materials, and the dust can explode ia admixture with air (see Table 3). Fires may be extinguished with water, CO2, foam, or dry chemicals. [Pg.246]

E. D. Wed and A. M. Aaronson, "Phosphoms Flame Retardants— Some Effects on Smoke and Combustion Products," lecture at University of Detroit Polymer Conference on Recent Advances in Combustion and Smoke Retardance of Polymers, Mich., May 1976. [Pg.483]

Flame and Smoke Retardants. Molybdenum compounds are used extensively as flame retardants (qv) (93,94) in the formulation of halogenated polymers such as PVC, polyolefins, and other plastics elastomers and fabrics. An incentive for the use of molybdenum oxide and other molybdenum smoke and flame retardants is the elimination of the use of arsenic trioxide. Although hydrated inorganics are often used as flame retardants, and thought to work by releasing water of crystallization, anhydrous molybdenum oxides are effective. Presumably the molybdenum oxides rapidly form... [Pg.477]

R. A. Scanlan and. E. Barbour, in I. K. O NeiU,. Chen, and H. Bartsch, eds.. Relevance to Human Cancer of N-Nitroso Compounds, Tobacco Smoke and Mjcotoxins, lARC Scientific PubUcation No. 105, International Agency for Research on Cancer, Lyon, Prance, 1991, pp. 242—243. [Pg.112]

There are no significant health hazards arising from exposure to poly(vinyl chloride) at ambient temperature (154—158). However, a British study has found a small decrease in breathing capacity for workers who smoked and were exposed to vinyl resin dust (159). This decrease was about one-seventh of that caused by normal aging and about equal to that expected with a one-pack-a-day cigarette smoker. [Pg.508]

Analysis for the butanals is most conveniendy carried out by gas chromatography. Trace quantities of -butyraldehyde (18 ppb) in exhaust gases have been determined employing a combination of capillary gas chromatography with thermionic detection (35). Sinulady, trace amounts of -butyraldehyde in cigarette smoke and coffee aroma have been determined by various capillary gc techniques (36,37). [Pg.381]

The life persistency of a smoke cloud is deterrnined chiefly by wind and convection currents in the air. Ambient temperature also plays a part in the continuance or disappearance of fog oil smokes. Water vapor in the air has an important role in the formation of most chemically generated smokes, and high relative humidity improves the performance of these smokes. The water vapor not only exerts effects through hydrolysis, but it also assists the growth of hygroscopic (deliquescent) smoke particles to an effective size by a process of hydration. Smoke may be generated by mechanical, thermal, or chemical means, or by a combination of these processes (7). [Pg.401]

Further dechlorination may occur with the formation of substituted diphenyhnethanes. If enough aluminum metal is present, the Friedel-Crafts reactions involved may generate considerable heat and smoke and substantial amounts of hydrogen chloride, which reacts with more aluminum metal, rapidly forming AlCl. The addition of an epoxide inhibits the initiation of this reaction by consuming HCl. Alkali, alkaline-earth, magnesium, and zinc metals also present a potential reactivity hazard with chlorinated solvents such as methylene chloride. [Pg.519]

Most processors of fiber-reinforced composites choose a phenol formaldehyde (phenoHc) resin because these resins are inherently fire retardant, are highly heat resistant, and are very low in cost. When exposed to flames they give off very Htde smoke and that smoke is of low immediate toxicity. PhenoHc resins (qv) are often not chosen, however, because the resole types have limited shelf stabiHty, both resole and novolac types release volatiles during their condensation cure, formaldehyde [50-00-0] emissions are possible during both handling and cure, and the polymers formed are brittle compared with other thermosetting resins. [Pg.19]

Solid particulates are captured as readily as hquids in fiber beds but can rapidly plug the bed if they are insoluble. Fiber beds have frequently been used for mixtures of liqmds and soluble sohds and with soluble solids in condensing situations. Sufficient solvent (usually water) is atomized into the gas stream entering the collector to irrigate the fiber elements and dissolve the collected particulate. Such nber beds have been used to collect fine fumes such as ammonium nitrate and ammonium chloride smokes, and oil mists from compressed air. [Pg.1440]

Iron Charging Smoke and particulates Closed top with exhaust system, CO... [Pg.2176]

Melting Smoke and particulates, fume afterburner, gas-cooling device and... [Pg.2176]

Bottom drop Smoke and particulates precipitator, wetting to extinguish fire... [Pg.2176]

Aluminum Melting charging, melting, pouring Smoke and particulates Charging clean material (no paint or grease) proper operation required no air-pollution-control equipment if no fluxes are used and degassing is... [Pg.2176]

Multiple-chamber incinerators Particulates, smoke, and combustion Operating at rated capacity, using... [Pg.2176]

See other pages where Smoking and is mentioned: [Pg.90]    [Pg.103]    [Pg.526]    [Pg.382]    [Pg.41]    [Pg.377]    [Pg.452]    [Pg.167]    [Pg.191]    [Pg.191]    [Pg.204]    [Pg.303]    [Pg.73]    [Pg.339]    [Pg.545]    [Pg.177]    [Pg.352]    [Pg.101]    [Pg.412]    [Pg.393]    [Pg.393]    [Pg.397]    [Pg.402]    [Pg.393]    [Pg.384]    [Pg.193]    [Pg.1580]    [Pg.2172]   
See also in sourсe #XX -- [ Pg.195 ]



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Alcohol consumption, smoking and

Analysis of Air Samples, Particles and Smoke

Asbestos and smoking

Cancer smoking and

Chronology of studies on aldehydes and ketones in tobacco smoke

Dust and smoke

Early Smoke Detection and Alarm (VESDA)

Eating, Drinking, and Smoking

Fire, Flame, and Smoke Detectors

Fire, Smoke and Toxicity

Flame Retardants (FR) and Smoke Suppressants (SS)

Flame Retardants and Smoke Suppressants

Flame retardants iron compounds, their effect on fire and smoke in halogenated polymers

From chemical smokes and explosives

Fuming and smoking

Heat and Smoke Detectors

Hypertension smoking and

In vitro ciliary activity, cigarette smoke fractions, and dose level

Look up the names of both individual drugs and their drug groups to access full information Smoking

Lung retention and mouth absorption of several cigarette mainstream smoke components

Major fixed and variable gases in non-filtered whole tobacco smoke

Nicotine and cigarette smoking

Potent Preparations for Smoking, Drinking and Eating

Pyrolysis products and smoke from the leaf of Nicotiana tabacum

Radon, Asbestos and Tobacco Smoke

Report on Smoking and Health

SMOKE AND SOUND

Smoke and Corrosive Gas Tests

Smoke and Flame Characteristics of Rocket Motors

Smoke and combustion gases

Smoke and flash point

Smoke and fog

Smoke and incendiary munitions

Smoke and toxic gas emissions

Smoke control and ventilation

Smoke inhalation and

Smoke, flash and fire points

Smokeless and Reduced Smoke

Smokes and Vapors

Smoking COPD and

Smoking aging and

Smoking and Breath Volatiles

Smoking and Female Fertility

Smoking and chronic

Smoking and coronary heart disease

Smoking and health

Smoking and oxidants

Smoking and vitamin

Smoking peptic ulcer disease and

Solid Aerosols Dust and Smoke

The Changing Mission Smoke in Amphibious and Beachhead Operations

The Enemy Strange Fruit and Stray Smoke

Tin Compounds as Flame Retardants and Smoke Suppressants

Tobacco Smoke and House Dust Mites

Tobacco Smoke and Organic Solvents

Tobacco smoke mixtures and lung cancer

Tobacco smoking and

Very Early Smoke Detection and Alarm

Very Early Smoke Detection and Alarm VESDA)

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