User:Milton Beychok/Sandbox: Difference between revisions

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Worldwide, the largest source of carbon monoxide is from the photochemical reactions in the [[Earth's_atmosphere#Structure_of_the_atmosphere|troposphere]] that generate about 5 x 10<sup>12</sup> kilograms per year.[3] Other natural sources of CO include [[volcano|volcanoes]], forest fires, and other forms of combustion.
Worldwide, the largest source of carbon monoxide is from the photochemical reactions in the [[Earth's_atmosphere#Structure_of_the_atmosphere|troposphere]] that generate about 5 x 10<sup>12</sup> kilograms per year.[3] Other natural sources of CO include [[volcano|volcanoes]], forest fires, and other forms of combustion.


{{Image|ToxicEffects.png|right|315px}}
==Toxicity==
==Toxicity==
Carbon monoxide poisoning is the most common type of fatal air poisoning in many countries. It combines with hemoglobin in the red blood cells of humans and animals to produce carboxy hemoglobin, which is ineffective for delivering oxygen to bodily tissues. Exposure to carbon monoxide levels as low as 667 parts per million by volume (ppmv) may cause up to 50 % of the body's hemoglobin to convert to carboxyhemoglobin[4] which may result in seizure, coma, and fatality.
{{Image|ToxicEffects.png|right|315px}}Carbon monoxide poisoning is the most common type of fatal air poisoning in many countries. It combines with hemoglobin in the red blood cells of humans and animals to produce carboxy hemoglobin, which is ineffective for delivering oxygen to bodily tissues. Exposure to carbon monoxide levels as low as 667 parts per million by volume (ppmv) may cause up to 50 % of the body's hemoglobin to convert to carboxyhemoglobin[4] which may result in seizure, coma, and fatality.


The adjacent table lists the typical symptoms caused by exposure to various concentrations of carbon monoxide, expressed in [[Parts per notation|parts per million by volume]] (ppmv).
The adjacent table lists the typical symptoms caused by exposure to various concentrations of carbon monoxide, expressed in [[Parts per notation|parts per million by volume]] (ppmv).
Line 44: Line 43:


In many industrialized countries carbon monoxide is the cause of more than 50 % of fatal poisonings.[13] It has been estimated that more than 40,000 people per year seek medical attention for carbon monoxide poisoning in the United States [14]. Approximately 200 people die each year in the USA from carbon monoxide poisoning caused by home fuel-burning heating equipment.[15] Carbon monoxide poisoning contributes to the approximately 5613 smoke inhalation deaths each year in the United States.[16] The [[Centers for Disease Control and Prevention]] (CDC) reports, "Each year, more than 500 Americans die from unintentional carbon monoxide poisoning, and more than 2000 commit suicide by intentionally poisoning themselves."[17]
In many industrialized countries carbon monoxide is the cause of more than 50 % of fatal poisonings.[13] It has been estimated that more than 40,000 people per year seek medical attention for carbon monoxide poisoning in the United States [14]. Approximately 200 people die each year in the USA from carbon monoxide poisoning caused by home fuel-burning heating equipment.[15] Carbon monoxide poisoning contributes to the approximately 5613 smoke inhalation deaths each year in the United States.[16] The [[Centers for Disease Control and Prevention]] (CDC) reports, "Each year, more than 500 Americans die from unintentional carbon monoxide poisoning, and more than 2000 commit suicide by intentionally poisoning themselves."[17]
==Uses==
===Chemical industry===
Carbon monoxide gas has many applications in large-scale [[Chemical plant|chemicals manufacturing]]. Large quantities of [[aldehydes]] are produced by the hydroformylation reaction of [[alkene]]s, carbon monoxide, and [[hydrogen]]. Hydroformylation is coupled to Shell Chemical's Higher Olefin Process (SHOP) to produced detergent precursors.
[[Methanol]] is produced by the hydrogenation of carbon monoxide. In a related reaction, the hydrogenation of carbon monoxide is coupled to C-C bond formation, as in the [[Fischer-Tropsch]] process which can be used to convert carbon monoxide into liquid [[hydrocarbon]] fuels.
In the Monsanto process, carbon monoxide and methanol react in the presence of a [[rhodium]] [[Catalysis|catalyst]] and [[hydroiodic]] acid to produce [[acetic acid]].
Another industrial use for pure carbon monoxide is the Mond process, sometimes called the Carbonyl process, which is utilized to extract and purify of [[nickel]] from the raw nickel ore.
===Medicine===
Following the first report that carbon monoxide is a normal neurotransmitter in 1993,[18] as well as one of three gases that naturally modulate inflammatory responses in the body (the other two being [[nitric oxide]] and [[hydrogen sulfide]]), carbon monoxide has received a considerable attention as a biological regulator. All three gases are known to act as vasodilators, and encouragers of neovascular growth.[19] However, the issues are complex, as neovascular growth is not always beneficial, since it plays a role in tumor growth, and also the damage from wet macular degeneration, a disease for which smoking (a major source of carbon monoxide in the blood, several times more than natural) increases the risk by a factor of about five.
Many laboratory studies worldwide have been made of the anti-inflammatory and cytoprotective properties of carbon monoxide. These properties have the potential to prevent the development of pathological conditions such as ischemia reperfusion injury, transplant rejection, atherosclerosis, severe sepsis, severe malaria, or autoimmunity. Clinical tests involving humans have been performed, however the results have not yet been released.[20]
===Meat coloring===
Carbon monoxide is used in modified atmosphere packaging systems in the United States, mainly with fresh meat products to keep them looking fresh. The carbon monoxide combines with myoglobin to form carboxymyoglobin, a bright-cherry-red pigment. This stable red color can persist much longer than in normally packaged meat.[21] Typical levels of carbon monoxide involved in the facilities that use this process are between 0.4 to 0.5 percent by volume.
The technology was first given "generally recognized as safe" (GRAS) status by the [[U.S. Food and Drug Administration]] (FDA) in 2002 for use as a secondary packaging system, and does not require labeling. In 2004, the FDA approved the use of carbon monoxide in packaging, declaring that it does not mask any spoilage odor.[22] Despite this ruling, the process remains controversial for fear that it masks spoilage.[23] The process is prohibited in many countries, including [[Canada]], [[Japan]], [[Singapore]] and the [[European Union]].

Revision as of 18:17, 6 November 2011

(CC) Drawing: Milton Beychok

Carbon monoxide (CO), also referred to as carbonous oxide, is a colorless, odorless, and tasteless gas that is slightly lighter than air. Exposure to high levels of carbon monoxide is extremely toxic to humans and animals. Conversely, small amounts of carbon monoxide are produced in normal animal metabolism and it is thought to have some normal biological functions.

Carbon monoxide consists of one carbon atom and one oxygen atom. It is the simplest member of the class of inorganic compounds known as oxocarbons which includes carbon dioxide (CO2), carbon suboxide (C3O2), mellitic anhydride (C12O9) and many others. When combined with a metal (i.e., an organometallic complex), the carbon monoxide is a ligand called carbonyl : for example, in nickel carbonyl with the formula Ni(CO)4.

Carbon monoxide is produced by the partial combustion of carbon-containing substances. It is produced when there is not enough oxygen to form carbon dioxide, such as when operating a stove or an internal combustion engine in an enclosed space.

In the presence of oxygen, carbon monoxide burns with a blue flame, producing carbon dioxide.[1] Coal gas, which was widely used before the 1960s for domestic lighting, cooking, and heating, had carbon monoxide as a significant constituent. Iron smelting and other current technological processes still produce byproduct carbon monoxide.[2]

Worldwide, the largest source of carbon monoxide is from the photochemical reactions in the troposphere that generate about 5 x 1012 kilograms per year.[3] Other natural sources of CO include volcanoes, forest fires, and other forms of combustion.

Toxicity

(CC) Drawing: Milton Beychok

Carbon monoxide poisoning is the most common type of fatal air poisoning in many countries. It combines with hemoglobin in the red blood cells of humans and animals to produce carboxy hemoglobin, which is ineffective for delivering oxygen to bodily tissues. Exposure to carbon monoxide levels as low as 667 parts per million by volume (ppmv) may cause up to 50 % of the body's hemoglobin to convert to carboxyhemoglobin[4] which may result in seizure, coma, and fatality.

The adjacent table lists the typical symptoms caused by exposure to various concentrations of carbon monoxide, expressed in parts per million by volume (ppmv).

On average, exposures to levels of 100 ppm or greater is dangerous to human health. In the United States, the long-term workplace exposure levels are limited by the Occupational Safety and Health Administration (OSHA) to less than 50 ppmv averaged over an 8-hour period;[5] in addition, employees are to be removed from any confined space if an upper limit (ceiling) of 100 ppmv is reached.

The most common symptoms of carbon monoxide poisoning may resemble other types of poisonings and infections, including symptoms such as headache, nausea, vomiting, dizziness, fatigue, and a feeling of weakness. Infants may be irritable and feed poorly.[6] Neurological signs include confusion, disorientation, visual disturbance, fainting and seizures. (See adjacent table.)

Exposures to carbon monoxide may cause significant damage to the heart and central nervous system, especially to a sub-cortical component of the brain, often with long-term effects.

Carbon monoxide may have severe adverse effects on the fetus of a pregnant woman.

Occurrence

Carbon monoxide occurs in various natural and artificial environments. Typical concentrations in parts per million by volume are as follows:[7][8][9]

CarbonMonoxideConcentrations.png

Atmosphere

Carbon monoxide is present in low levels in the atmosphere, primarily as a product of volcanic activity but also from natural and man-made fires such as slash and burn agriculture, burning of crop residues, and sugarcane fire-cleaning. Combustion of fossil fuels also results in carbon monoxide emissions to the atmosphere.

Through natural processes in the atmosphere, carbon monoxide is eventually converted to carbon dioxide. Carbon monoxide concentrations in the atmosphere are short-lived and geographically variable.

Urban areas

Carbon monoxide is a major atmospheric pollutant in most urban areas, chiefly from the engine exhausts of vehicles, portable and back-up generators, lawn mowers, leaf blowers, etc. One of the most important cases of carbon monoxide buildup is in the presence of urban street canyons or other semi-enclosed volumes created by man-made structures. The incomplete combustion of various other fuels such as natural gas, fuel oils, coal, wood, charcoal, LPG, and trash also contribute to the emissions of carbon monoxide in urban areas.

Indoors

Indoors and in other closed environments, the concentration of carbon monoxide can quickly and unnoticeably rise to dangerous and fatal levels. The true number of incidents of carbon monoxide poisoning is unknown, since many non-fatal exposures go undetected and unreported. Carbon monoxide poisoning is the most common cause of injury and death due to poisoning worldwide. Poisoning is typically more common during the winter months, probably because of the increased domestic use of gas furnaces, gas or kerosene space heaters, and kitchen stoves during the winter months, which if faulty and/or used without enough ventilation, may produce excessive carbon monoxide.[10][11][12]

In many industrialized countries carbon monoxide is the cause of more than 50 % of fatal poisonings.[13] It has been estimated that more than 40,000 people per year seek medical attention for carbon monoxide poisoning in the United States [14]. Approximately 200 people die each year in the USA from carbon monoxide poisoning caused by home fuel-burning heating equipment.[15] Carbon monoxide poisoning contributes to the approximately 5613 smoke inhalation deaths each year in the United States.[16] The Centers for Disease Control and Prevention (CDC) reports, "Each year, more than 500 Americans die from unintentional carbon monoxide poisoning, and more than 2000 commit suicide by intentionally poisoning themselves."[17]

Uses

Chemical industry

Carbon monoxide gas has many applications in large-scale chemicals manufacturing. Large quantities of aldehydes are produced by the hydroformylation reaction of alkenes, carbon monoxide, and hydrogen. Hydroformylation is coupled to Shell Chemical's Higher Olefin Process (SHOP) to produced detergent precursors.

Methanol is produced by the hydrogenation of carbon monoxide. In a related reaction, the hydrogenation of carbon monoxide is coupled to C-C bond formation, as in the Fischer-Tropsch process which can be used to convert carbon monoxide into liquid hydrocarbon fuels.

In the Monsanto process, carbon monoxide and methanol react in the presence of a rhodium catalyst and hydroiodic acid to produce acetic acid.

Another industrial use for pure carbon monoxide is the Mond process, sometimes called the Carbonyl process, which is utilized to extract and purify of nickel from the raw nickel ore.

Medicine

Following the first report that carbon monoxide is a normal neurotransmitter in 1993,[18] as well as one of three gases that naturally modulate inflammatory responses in the body (the other two being nitric oxide and hydrogen sulfide), carbon monoxide has received a considerable attention as a biological regulator. All three gases are known to act as vasodilators, and encouragers of neovascular growth.[19] However, the issues are complex, as neovascular growth is not always beneficial, since it plays a role in tumor growth, and also the damage from wet macular degeneration, a disease for which smoking (a major source of carbon monoxide in the blood, several times more than natural) increases the risk by a factor of about five.

Many laboratory studies worldwide have been made of the anti-inflammatory and cytoprotective properties of carbon monoxide. These properties have the potential to prevent the development of pathological conditions such as ischemia reperfusion injury, transplant rejection, atherosclerosis, severe sepsis, severe malaria, or autoimmunity. Clinical tests involving humans have been performed, however the results have not yet been released.[20]

Meat coloring

Carbon monoxide is used in modified atmosphere packaging systems in the United States, mainly with fresh meat products to keep them looking fresh. The carbon monoxide combines with myoglobin to form carboxymyoglobin, a bright-cherry-red pigment. This stable red color can persist much longer than in normally packaged meat.[21] Typical levels of carbon monoxide involved in the facilities that use this process are between 0.4 to 0.5 percent by volume.

The technology was first given "generally recognized as safe" (GRAS) status by the U.S. Food and Drug Administration (FDA) in 2002 for use as a secondary packaging system, and does not require labeling. In 2004, the FDA approved the use of carbon monoxide in packaging, declaring that it does not mask any spoilage odor.[22] Despite this ruling, the process remains controversial for fear that it masks spoilage.[23] The process is prohibited in many countries, including Canada, Japan, Singapore and the European Union.