From incomplete combustion

Synthetic oil is feasible and can be produced from coal or natural gas via synthesis gas (a mixture of carbon monoxide and hydrogen obtained from incomplete combustion of coal or natural gas). However, these are themselves nonrenewable resources. Coal conversion was used in Germany during World War II by hydrogenation or. 

The second example of an air pollutant that affects the total body burden is carbon monoxide (CO). In addihon to CO in ambient air, there are other sources for inhalation. People who smoke have an elevated CO body burden compared to nonsmokers. Individuals indoors may be exposed to elevated levels of CO from incomplete combustion in heating or cooking stoves. CO gas enters the human body by inhalation and is absorbed directly into the bloodstream the total body burden resides in the circulatory system. The human body also produces CO by breakdown of hemoglobin. Hemoglobin breakdown gives every individual a baseline level of CO in the circulatory system. As the result of these factors, the body burden can fluctuate over a time scale of hours. 

Unlike carbon dioxide and water that are the inevitable by products of complete combustion of hydrocarbons, species such as carbon monoxide, ethene, toluene, and formaldehyde can be emitted because combustion has been interrupted before completion. Many factors lead to emissions from incomplete combustion. Emitted unburned hydrocarbons and carbon monoxide are regulated pollutants that must be eliminated. In automobiles with spark ignited engines, these emissions are almost entirely removed by the catalytic converter. 

Carbon deposits resulting from incomplete combustion. Sootblowers ... 

There has been increased concern over air pollution as a result of their presence in the atmosphere from incomplete combustion. 

Solid (particulate) emissions are produced from incomplete combustion of fuels, solids, drying operations, crushing and grinding operations, solids handling operations, and so on. The largest volume of emissions is from products of combustion (C02, CO, NOv, SO.v and particulates). Acid... 

Unfortunately, most fatalities in fires occur by inhalation of toxic vapours. These can be carbon monoxide (which arises from incomplete combustion), cyanides (from nitrogen-containing polymers) and chlorides (from chloropoly-mers). These are the adverse consequences of flammable polymer combustion. They can be overcome by using breathing apparatus, face masks, etc. 

Soot results from incomplete combustion of carbonaceous material... 

The vast majority of measurements of organolead compounds in the environment do not constitute evidence for biomethylation of lead. Most environmental organic lead comes from incomplete combustion or spillage of methyl- or ethyl-lead gasoline additives (viz tetraalkylleads or TALs). A literature search will produce several hundred TAL or ionic alkyllead results, but few of them are evidence for methylation in or by the environment. 

Alkyl fluoranthenes/pyrenes (Fig. 8) and the alkylated m/z 228 and 252 series (Fig. 9) are observed mainly from incomplete combustion processes of petroleum and coal. Compound identifications on the figures are summarized in Table 2 with names, compositions, and molecular weights. 

Source Hexachlorobenzene may enter the environment from incomplete combustion of chlorinated compounds including mirex, kepone, chlorobenzenes, pentachlorophenol, PVC, polychlorinated biphenyls, and chlorinated solvents (Ahling et al., 1978 Dellinger et al., 1991). In addition, hexachlorobenzene may enter the environment as a reaction by-product in the production of carbon tetrachloride, dichloroethylene, hexachlorobutadiene, trichloroethylene, tetrachloro-ethylene, pentachloronitrobenzene, and vinyl chloride monomer (quoted, Verschueren, 1983). 

Simoneit BRT, Biomass burning — A review of organic tracers for smoke from incomplete combustion. Applied Geochem 17 129—162, 2002. 

Asthma is considered as a chronic inflammatory disorder of the airways. This inflammation causes recurrent episodes of symptoms, variable airflow limitation, and increased airway responsiveness. Prevention of asthma involves both the prevention of the initial development of asthma (= primary prevention) and the prevention of exacerbation in patients with asthma (= secondary prevention). Primary prevention methods include reducing exposure to indoor allergens, particularly domestic mites, avoidance of passive smoking, especially by infants, and avoidance of vehicle emission pollutants, largely from incomplete combustion of petrol by car engines. 

Polynuclear aromatic hydrocarbons (PAH), of widespread occurrence in the environment, result from incomplete combustion of carbon- and hydrogen-containing substances. Many PAHs are well-recognized carcinogens and mutagens. Several industrial processes, such as fossil fuel conversion and production of aluminium and ferroalloys, can produce PAHs and result in their occurence in the working environment. 

HDPE can present health hazards when it burns. Heavy smoke, fumes, or potentially toxic decomposition products can result from incomplete combustion. Large-scale fire testing has shown that the products formed from HDPE present no greater hazard than those from cellulostc materials, wood, fell, or rubber. 

Another important application of heterogeneous catalysts is in automobile catalytic converters. Despite much work on engine design and fuel composition, automotive exhaust emissions contain air pollutants such as unburned hydrocarbons (CxHy), carbon monoxide, and nitric oxide. Carbon monoxide results from incomplete combustion of hydrocarbon fuels, and nitric oxide is produced when atmospheric nitrogen and oxygen combine at the high temperatures present in an... 

CO Carbon monoxide—exhaust emission resulting from incomplete combustion and/or fuel-rich combustion. 

Biomass combustion is a major global source and may even be the major source of atmospheric CH3C1 (223, 282-288). These studies indicate that CH3C1 production is maximized in low intensity fires, from incomplete combustion, and by increased chloride concentration. It is estimated that six billion tons of biomass are consumed... 

Carbon monoxide sensor. Carbon monoxide is a toxic air pollutant originating from incomplete combustion of fuels in burners or engines. Despite a strong demand for a very reliable carbon monoxide sensor, the only available sensor was based on an electrochemical type until recently. In this type sensor, selectivity and sensitivity for CO can often be enhanced by selecting elecrode materials and electrode potential appropriately, but several disadvantages are encountered, such as, short life, difficult maintenance and a rather expensive price. 

Smoke. Solid particles (0.05-1.0 im) resulting from incomplete combustion of fossil fuels. 

Carbon monoxide is a clear, tasteless, odorless gas that is produced from incomplete combustion. Exposure to carbon monoxide can cause headaches fatigue dizziness nausea permanent damage to the brain, central nervous system, and heart and even death by reducing the amount of oxygen red blood cells carry. Infants, children, pregnant women, the elderly, and people with heart or respiratory problems are most susceptible to carbon monoxide poisoning. Because you can t see, smell, or taste carbon monoxide, it has to be tested for with a monitor or an alarm, which are now legally required in many states. 

Smoke Small gas-bome particles created from incomplete combustion of a variety of materials essentially consists of carbon and other combustible materials. 

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