Coke (English: Cola) refers to a carbonated drink that is sweet, contains caffeine but does not contain ethanol .   Flavors include vanilla, cinnamon, lemon, etc. The name comes from one of Coke’s early ingredients: kola nut extract. The most well-known cola brands are Coca-Cola and Pepsi-Cola .   Drinking Coke is originally a consumption behavior no different from drinking other drinks. However, the rich connotation of Coke culture goes far beyond the scope of “drinking”.   origin   invention   Coke was invented by an American pharmacist named John Pemberton. He hoped to create a medicinal mixed drink that would refresh the mind, relieve fatigue, and cure headaches . The “Coca Cola” prepared by Pemberton was originally gas-free and was mixed with cold water when drinking. It was only due to an accident that it became a carbonated drink . On the afternoon of May 8, 1886, a drunkard stumbled into Pemberton’s drug store. He said to the salesperson: ” Here is a cup of coca-cola, a medicine for treating headaches and brain fever.” The salesman was supposed to go to the faucet to mix water, but the faucet was more than two meters away from him. He was too lazy to move around, so he picked up soda water nearby . Coca-Cola mixed. It turned out that the drunkard actually liked drinking. He drank one glass after another, and kept saying: “It tastes good. It tastes good.” The drunkard also publicized the miraculous effects of this non-alcoholic drink everywhere. Before John Pemberton’s death, they sold the patent rights . Forty years later, no one in the world knows Coca-Cola . A carbonated soft drink containing cola nut extract and other flavorings , it originally originated in the United States. However, cola contains caffeine , which is a harmful substance to the human body, but it also has benefits. Everyone knows that cola contains carbon dioxide . When carbon dioxide enters the human body and comes out, it will take away the body’s heat. heat dissipation.   cola tree   The cola tree is an evergreen tree native to South Africa . It is cultivated in South America , Central America , the East and West Indies , Indonesia , Sri Lanka , and Malaysia . The kola nut fruit is about the same size as a walnut and contains several seeds. When immature, it is soft and fleshy, with a beautiful white or dark red color, and gradually turns to reddish brown during the ripening process. The fruits are collected when ripe but not split, peeled to remove the seeds, and dried to become cola beans. Cola nuts contain 1.5% to 2.5% caffeine that excites nerves . In addition, they also contain cholic acid , theobromine , cola alcohol, cola enzyme, cola tannins, glucose , gums , cola red, etc. Liquor is the flavoring agent for cola-type drinks .   formula   The main recipe for Coke is public. To commemorate Coca-Cola’s 100th birthday in 1986, Gustein named the new formula “7×100.” The ingredients are sugar, carbonated water ( carbon dioxide and water), caramel , phosphoric acid , caffeine , etc. It is this mixture of spices that gives Coke its unique taste. After long-term research, European food experts believe that the composition of “7X” includes: extracts or filters of vetch , ginger, mimosa , orange leaves , coca leaves, cinnamon and vanilla bark . The formula of Coca-Cola will not be exactly the same in different countries and regions , and the inclusion of local ingredients helps to adapt to the tastes of customers everywhere.   Drinking Benefits   1. Coke can relieve fatigue.   Coke contains caffeine. Caffeine can temporarily drive away drowsiness and restore energy. It is clinically used to treat neurasthenia and coma. Caffeine can improve the body’s sensitivity and concentration, accelerate the body’s metabolism, improve the body’s mental state and physical fitness, thereby eliminating fatigue.   2. Appetizer and food aid   Coke contains caffeine. Caffeine stimulates sympathetic nerves , stimulates the gastrointestinal tract to secrete gastric acid , promotes digestion, prevents bloating and gastroptosis , and promotes gastrointestinal hormones and peristaltic hormones to facilitate rapid defecation. Mix cola and tomato sauce half and half and smear it on the outside of the barbecue , so that the roasted meat will be very delicious. Use cola to mix noodles, and the steamed buns , steamed buns or fried twists and dumplings are very soft, crispy, and have a fruity aroma. The caffeine in cola can also stimulate the gastric mucosa and promote gastric acid secretion.

This entry was edited and reviewed by the School of Chemical Sciences, University of Chinese Academy of Sciences , and certified by Popular Science China·Science Encyclopedia.   Ethylene glycol is also known as glycol and 1,2-ethylene glycol, referred to as EG. The chemical formula is (CH 2 OH) 2 and it is the simplest glycol . Ethylene glycol is a colorless, odorless, sweet liquid with low toxicity to animals. Ethylene glycol is miscible with water and acetone , but its solubility in ethers is small. Used as solvent, antifreeze and raw material for synthetic polyester. Polyethylene glycol (PEG), a polymer of ethylene glycol , is a phase transfer catalyst and is also used in cell fusion ; its nitrate ester is an explosive.   physical properties   Appearance: Colorless transparent viscous liquid   Melting point: -13 °C (lit.)   Molecular weight: 66.092   Boiling point: 195-198 °C   Glass transition temperature: -120 °C   Vapor pressure: 0.08 mmHg (20 ℃)   Density: 1.113 g/mL at 25 °C (lit.)   Refractive index: 1.4472 (λ: 589.3 nm; Temp: 20 °C)   Viscosity: 25.66 mPa.s (16℃)   Heat of combustion: 1180.26 kJ/mol   Autoignition point: 418 ℃   Critical temperature: 372 ℃   Critical pressure: 7699 kPa   Critical molar volume: 186 C3/mol   Eccentricity factor: 0.27   Surface tension: 46.49 mN/m (20℃)   CAS database: 107-21-1   NIST Chemical Substance Information: 1,2-Ethanediol(107-21-1)   EPA Chemical Substance Information: Ethylene glycol (107-21-1)   NIST Chemical Substance Information: 1,2-Ethanediol(107-21-1)   EPA Chemical Substance Information: Ethylene glycol (107-21-1)   Solubility: miscible with water/ethanol/acetone/glyceryl acetate pyridine, etc., slightly soluble in ether, insoluble in petroleum hydrocarbons and oils, able to dissolve calcium chloride/zinc chloride/sodium chloride/potassium carbonate/potassium chloride/ Inorganic substances such as  potassium iodide/potassium hydroxide.   At 25 degrees Celsius, the dielectric constant is 37.   t is easy to absorb moisture when the concentration is high.   Space between unit and number. Check the full text yourself later.、   chemical properties   Due to its low molecular weight and active nature , it can undergo esterification, etherification, alcoholization, oxidation, acetal, dehydration and other reactions.   Similar to ethanol, it can mainly react with inorganic or organic acids to form esters. Generally, only one hydroxyl group reacts first. By raising the temperature, increasing the amount of acid, etc., both hydroxyl groups can form esters. If it reacts with nitric acid mixed with sulfuric acid, dinitrate is formed. Acid chlorides or acid anhydrides easily form esters between two hydroxyl groups.   When ethylene glycol is heated under the action of a catalyst (manganese dioxide, aluminum oxide, zinc oxide or sulfuric acid), intramolecular or intermolecular water loss can occur.   Ethylene glycol can react with alkali metals or alkaline earth metals to form alkoxides. Usually, metals are dissolved in glycols to obtain only monoalkoxides; if this alkoxide (such as monosodium ethylene glycol) is heated to 180-200 °C in a hydrogen flow, disodium ethylene glycol and ethylene glycol can be formed.   In addition, ethylene glycol is heated with 2 mol of sodium methoxide to obtain disodium ethylene glycol. Disodium ethylene glycol reacts with alkyl halides to form ethylene glycol monoether or double ether. Disodium ethylene glycol reacts with 1,2-dibromoethane to form dioxane.   In addition, ethylene glycol is also easily oxidized. Depending on the oxidant used or the reaction conditions, various products can be generated, such as glycolaldehyde HOCH 2 CHO, glyoxal OHCCHO, glycolic acid HOCH 2 COOH, oxalic acid HOOCCOOH, carbon dioxide and water.   Ethylene glycol is different from other glycols in that the carbon chain can be broken when oxidized by periodic acid. Ethylene glycol can often be used instead of glycerin. In the tanning and pharmaceutical industries, it is used as a hydrating agent and solvent respectively.   Ethylene glycol derivatives dinitrates are explosives. Monomethyl ether or monoethyl ether of ethylene glycol is a good solvent, such as cellosolve HOCH2CH2OCH3, which can dissolve fiber, resin, paint and many other organic substances.   Ethylene glycol has strong solubility, but it is easily metabolized and oxidized to produce toxic oxalic acid, so it cannot be widely used as a solvent.   use   Mainly used to make polyester, polyester, polyester resin, hygroscopic agents, plasticizers, surfactants, synthetic fibers, cosmetics and explosives. It is also used as a solvent for dyes, inks, etc., to prepare antifreeze for engines, as a gas dehydrating agent, to manufacture resins, and as a wetting agent for cellophane, fiber, leather, and adhesives.   It can produce synthetic resin PET, fiber grade PET is polyester fiber, and bottle flake grade PET is used to make mineral water bottles, etc. It can also produce alkyd resin, glyoxal, etc., and is also used as antifreeze.   In addition to being used as antifreeze for automobiles, it is also used for the transportation of industrial cold energy. It is generally called a refrigerant. At the same time, it can also be used as a condensing agent like water. When using ethylene glycol as a refrigerant, you should pay attention to:   1. The freezing point changes with the concentration of ethylene glycol in the aqueous solution. When the concentration is below 60%, the freezing point decreases as the concentration of ethylene glycol in the aqueous solution increases. However, after the concentration exceeds 60%, as the concentration of ethylene glycol increases, the freezing point changes. As the concentration increases, its freezing point tends to rise, and the viscosity also increases as the concentration increases. When the concentration reaches 99.9%, its freezing point rises to -13.2°C. This is an important reason why concentrated antifreeze (antifreeze mother liquor) cannot be used directly and must attract the attention of users.   2. Ethylene glycol contains hydroxyl groups. When working at 80 degrees Celsius – 90 degrees Celsius for a long time, ethylene glycol will be oxidized first to glycolic acid and then to oxalic acid, that is, oxalic acid (oxalic acid), which contains 2 carboxyl groups. Oxalic acid and its by-products affect the central nervous system first, then the heart, and then the kidneys. Ethylene glycol and oxalic acid can corrode equipment and cause it to leak. Therefore, preservatives must also be included in the prepared antifreeze to prevent corrosion of steel and aluminum and the formation of scale.   Ethylene glycol methyl ether series products are high-grade organic solvents with excellent performance. They are used as solvents and diluents for printing inks, industrial cleaning agents, coatings (nitrocellulose paint, varnish, enamel), copper-clad laminates, printing and dyeing, etc. However, it is easily metabolized and oxidized to produce toxic oxalic acid, so it cannot be widely used as a solvent.   It can be used as an intermediate for the production of pesticides and pharmaceuticals, and is an intermediate for the fungicides pentoconazole and hymexazole. As well as raw materials for chemical products such as synthetic brake fluid; chemical fiber dyes for tanning, etc.   Adding ethylene glycol to hydraulic fluid can prevent oil-based hydraulic fluid from corroding the rubber in the system; water-based hydraulic fluid with ethylene glycol as the main component is an incombustible hydraulic fluid and is used in aircraft and automobiles. and molding machines that operate at high temperatures.   It is used as textile auxiliaries, synthetic liquid dyes, and raw materials for desulfurizers in fertilizer and oil refining production. Used as analytical reagents, chromatographic analysis reagents and capacitive media.   water antifreeze   Ethylene glycol is a colorless, slightly viscous liquid with a boiling point of 197.4°C and a freezing point of -11.5°C. It can be mixed with water in any proportion. After mixing, the freezing point is significantly reduced due to the change in vapor pressure of the cooling water.   The degree of decrease decreases with the increase of ethylene glycol content within a certain range. When the ethylene glycol content is 60%, the freezing point can be reduced to -48.3°C. When this limit is exceeded, the freezing point will rise instead.   Ethylene glycol antifreeze easily generates acidic substances during use , which has a corrosive effect on metals . Ethylene glycol is toxic, but due to its high boiling point, it does not produce vapor that can be inhaled into the body and cause poisoning.   Ethylene glycol has strong water absorption , and the storage container should be sealed to prevent it from overflowing after absorbing water.   Since the boiling point of water is lower than that of ethylene glycol, water is evaporated during use. When there is a lack ofcoolant , just add clean water.   This kind of antifreeze can be recycled after use (to prevent it from being mixed with petroleum products ). After sedimentation, filtration, adding water to adjust the concentration, and adding preservatives, it can continue to be used. Generally, it can be used for 3-5 years.   However, it must be filtered multiple times to prevent damage to the motor vehicle.   Many people think that the freezing point of ethylene glycol is very low. The freezing point of antifreeze is a neutral freezing point after mixing ethylene glycol and water in different proportions. In fact, this is not the case. The freezing point will be lower due to the change in the vapor pressure of the cooling water after mixing. significantly reduced.   The degree of decrease decreases with the increase of ethylene glycol content within a certain range, but once it exceeds a certain proportion, the freezing point will increase instead.   Antifreeze liquid mixed with 40% ethylene glycol and 60% soft water has an antifreeze temperature of -25°C; when the antifreeze liquid contains 50% ethylene glycol and 50% water, the antifreeze temperature is -35°C.   Freezing point measurement   Ethylene glycol is the main component of antifreeze, accounting for about 45% of the original antifreeze solution. The original antifreeze solution can be mixed with water in a certain proportion according to the temperature in various places to control the freezing point within an appropriate range. Effective antifreeze agents are various organic alcohols.   freezing point within an appropriate range. Effective antifreeze agents are various organic alcohols. Since the 1950s, almost all countries have used ethylene glycol as antifreeze. Ethylene glycol is a colorless, transparent, slightly sweet and hygroscopic viscous liquid that is misciblewith water in any proportion. When the concentration of ethylene glycol is different. The freezing point is also different. The freezing point of ethylene glycol-water antifreeze is not  linearly related to the mass fraction of ethylene glycol . The freezing point of its aqueous solution does not completely decrease with the increase of concentration. When the concentration exceeds 70%, the freezing point rises instead. During the preparation process , reasonable selection should be made based on reality to meet the requirements of antifreeze and economy . In Jiangnan , China , the ratio of ethylene glycol mass fraction is generally 40%, while in the cold north, the ratio of ethylene glycol mass fraction of about 50% is more suitable.   Packaging, storage and transportation   1. Store in a cool, ventilated warehouse. Keep away from fire and heat sources. They should be stored separately from oxidants and acids, and avoid mixed storage. Equipped with the appropriate variety and quantity of fire equipment. The storage area should be equipped with emergency release equipment and suitable containment materials. Due to its strong hygroscopicity, it should be stored sealed and sealed with nitrogen for long-term storage. Can be stored in iron, mild steel, copper or aluminum containers. However, coated steel, aluminum or stainless steel containers should be used for long-term storage.   2. The word “toxic” should be marked on the ethylene glycol container to prevent accidental ingestion and inhalation of ethylene glycol vapor. Operators should wear protective equipment and undergo regular physical examinations, especially routine urine examinations.   health hazards   Toxicity: Rat oral LD ​​50 =5.8mL/kg, mouse oral LD ​​50 =1.31~13.8mL/kg.   Routes of invasion : inhalation, ingestion, percutaneous absorption .   Health hazards : Inhalation poisoning manifests as recurrent syncope , nystagmus , and lymphocytosis. Acute poisoning after oral administration is divided into three stages: the first stage is mainly characterized by central nervous system symptoms , which in mild cases resemble ethanol poisoning , and in severe cases, rapid coma, convulsions, and death; in the second stage, cardiopulmonary symptoms are obvious, and severe cases may have pulmonary edema. , bronchopneumonia , heart failure ; the third stage mainly manifests as varying degrees of renal failure.   First aid measures Skin contact: Take off contaminated clothing and rinse with plenty of running water. Eye contact: Lift eyelids and rinse with running water or saline . Seek medical attention.   Inhalation: Move quickly to fresh air. Keep your airway open. If breathing is difficult , give oxygen. If breathing stops , perform artificial respiration immediately and seek medical attention.   Ingestion: Drink plenty of warm water and induce vomiting. Gastric lavage, diuresis. Seek medical attention. If breathing stops, perform artificial respiration immediately. Seek medical attention.   Toxicity to pets:   Ethylene glycol can be obtained from motorcycle antifreeze . The ethylene glycol in motorcycle antifreeze is not a threat to humans due to the addition of bittering agents and the small amount. However, if it is accidentally mixed with the food of pets (cats, dogs), Can cause poisoning in pets and cause kidney failure .   toxicological environment   Toxicity : It is of low toxicity.   Acute toxicity : LD 50 : 8.0~15.3g/kg (orally in mice); 5.9~13.4g/kg ( orally in rats );   Subacute and chronic toxicity : After eight days of inhalation of 12 mg/m 3 (several times in a row) in rats, 2/15 animals had corneal opacity and blindness; in humans, 9/28 inhaled a 40% ethylene glycol mixture and experienced temporary fainting ; in humans, inhalation Repeated inhalation of a 40% ethylene glycol mixture heated to 105°C caused nystagmus in 14/38 people and increased lymphocytes in 5/38 people .   Hazardous characteristics : There is a risk of combustion and explosion when exposed to open flame, high heat or contact with oxidants . If exposed to high heat, the internal pressure of the container will increase and there is a risk of cracking and explosion. Combustion (decomposition) products : carbon monoxide , carbon dioxide, water.

Carbon dioxide is a carbon-oxygen compound with the chemical formula CO2 and a chemical formula quantity of 44.0095. It is a colorless and odorless or colorless and odorless gas at normal temperature and pressure, and its aqueous solution has a slightly sour smell. It is also a common Greenhouse gases are also one of the components of air (accounting for 0.03%-0.04% of the total volume of the atmosphere).   In terms of physical properties, carbon dioxide has a melting point of -56.6°C (527kPa), a boiling point of -78.5°C, is denser than air (under standard conditions), and is soluble in water.   In terms of chemical properties, carbon dioxide is chemically inactive and has high thermal stability (only 1.8% decomposes at 2000°C). It cannot burn and usually does not support combustion. It is an acidic oxide and has the properties of an acidic oxide. Since it reacts with water to form carbonic acid, it is an anhydride of carbonic acid.   Carbon dioxide can generally be produced by calcining limestone at high temperatures or by the reaction of limestone and dilute hydrochloric acid. It is mainly used in refrigeration of perishable food (solid state), as refrigerant (liquid state), in the manufacture of carbonized soft drinks (gaseous state) and as a solvent for homogeneous reactions ( supercritical state), etc. Regarding its toxicity, research shows that low concentrations of carbon dioxide are not toxic, while high concentrations of carbon dioxide can poison animals.   On April 13, 2023, the 742nd Academic Symposium of the Xiangshan Science Conference was held. Experts pointed out that carbon dioxide utilization technology has huge potential. As of June 2023, global greenhouse gas emissions have reached a “record high” in the past 10 years, with up to 54 billion tons of carbon dioxide emitted annually.   Molecular Structure   The shape of the CO2 molecule is linear, and its structure was once thought to be: O=C=O. However, the carbon-oxygen bond length in the CO2 molecule is 116pm, which is between the carbon-oxygen double bond (bond length 124pm) and the carbon-oxygen triple bond (bond length 113pm), so the carbon-oxygen bond in CO2 has a certain degree of triple bond length. key characteristics.   Modern scientists generally believe that the central atom of the CO2 molecule, the carbon atom, adopts sp hybridization. The two sp hybrid orbitals overlap with the 2p orbitals (containing one electron) of the two oxygen atoms to form two σ bonds. The p atoms on the carbon atoms are perpendicular to each other. The orbitals then form two large π bonds with the parallel p orbitals of the two oxygen atoms.   Generating pathway   Carbon dioxide gas is part of the atmosphere (accounting for 0.03%-0.04% of the total volume of the atmosphere). It is abundant in nature. Its main production pathways are as follows:   ① Organic matter (including animals and plants) decomposes, ferments, decays, and deteriorates. Carbon dioxide can be released during the process.   ② Carbon dioxide is also released during the combustion of petroleum, paraffin, coal, and natural gas.   ③Petroleum and coal also release carbon dioxide during the production of chemical products.   ④ All feces and humic acid can also release carbon dioxide during fermentation and maturation. ⑤All animals inhale oxygen and exhale carbon dioxide during respiration.   Preparation   Industrial preparation   Calcination method   The carbon dioxide gas produced during the high-temperature calcining of limestone (or dolomite) is washed with water, impurities removed, and compressed to produce gaseous carbon dioxide.   Fermentation gas recovery method   The carbon dioxide gas produced during the fermentation process of ethanol production is washed with water, impurities removed, and compressed to produce carbon dioxide gas.   By-product gas recovery method   The production process of ammonia, hydrogen, and synthetic ammonia often involves a decarbonization (ie, removal of carbon dioxide from the gas mixture) process, so that high-purity carbon dioxide gas can be obtained by absorbing the carbon dioxide in the mixed gas under pressure and heating and desorbing under reduced pressure.   adsorption expansion method   Generally, the by-product carbon dioxide is used as the raw material gas, and high-purity carbon dioxide is extracted from the adsorption phase using the adsorption expansion method, and the product is collected with a cryogenic pump; it can also be produced by adsorption distillation, which uses silica gel, 3A molecular sieve and activated carbon as adsorbents. , remove some impurities, and produce high-purity carbon dioxide products after distillation.   Charcoal kiln method   Carbon dioxide is refined from carbon kiln gas and methanol cracking gas.   Main Application   High-purity carbon dioxide is mainly used in the electronics industry, medical research and clinical diagnosis, calibration gas for carbon dioxide lasers, testing instruments and the preparation of other special gas mixtures. It is used as a regulator in polyethylene polymerization reactions.   Solid carbon dioxide is widely used to refrigerate dairy products, meat, frozen foods and other perishable foods in transit. It is used as a refrigerant in many industrial processes, such as crushing heat-sensitive materials, rubber polishing, metal cold processing, and shrink assembly of mechanical parts. , vacuum cold trap, etc.   Gaseous carbon dioxide is used for carbonization of soft drinks, pH control in water treatment processes, chemical processing, food preservation, inert protection of chemical and food processing processes, welding gas, plant growth stimulant, in casting for hardening molds and cores and for Pneumatic devices are also used as diluents for sterilizing gas (i.e., mixed gases of ethylene oxide and carbon dioxide are used as sterilizing, insecticide, and fumigant) and are widely used in the sterilization of medical equipment, packaging materials, clothing, fur, bedding, etc. , bone meal disinfection, fumigation of warehouses, factories, cultural relics, books).   Liquid carbon dioxide is used as a refrigerant, for low-temperature testing of aircraft, missiles and electronic components, to enhance oil well recovery, for rubber polishing and to control chemical reactions, and as a fire extinguishing agent.   Supercritical carbon dioxide can be used as a solvent to dissolve non-polar, non-ionic and low molecular weight compounds, so it is widely used in homogeneous reactions.   Security Measures     Natural Environment   Natural greenhouse effect: Greenhouse gases such as carbon dioxide in the atmosphere can radiate longer-wavelength long-wave radiation to the ground after strongly absorbing long-wave radiation from the ground, which plays a role in insulating the ground.   Enhanced greenhouse effect: Since the industrial revolution, human activities have emitted large amounts of carbon dioxide and other greenhouse gases, causing the concentration of greenhouse gases in the atmosphere to rise sharply, resulting in an increasingly enhanced greenhouse effect. [43] According to statistics, before industrialization, the global annual average atmospheric carbon dioxide concentration was 278ppm (1ppm is one part per million). In 2012, the global annual average atmospheric carbon dioxide concentration was 393.1ppm. By April 2014, the atmospheric concentration in the northern hemisphere was 393.1ppm. The average carbon dioxide concentration exceeded 400ppm for the first time.   Global warming: The continuous intensification of the atmospheric greenhouse effect has led to global warming, resulting in a series of global climate problems that are unpredictable by today’s science. The International Climate Change Economics Report shows that if humans continue to maintain the current lifestyle, there will be a 50% chance that the global average temperature will rise by 4°C by 2100. If the global temperature rises by 4°C, the glaciers in the Arctic and Antarctic will melt, and sea levels will rise. More than 40 island countries and the most populous coastal cities in the world will be in danger of being submerged. Tens of millions of people around the world will be inundated. Life will face crises, and even global ecological balance disorders will occur, eventually leading to large-scale migration and conflicts around the world.   Human Health   Studies have shown that when the concentration of carbon dioxide in the air is less than 2%, there is no obvious harm to humans. If the concentration exceeds this concentration, it can cause damage to human respiratory organs. That is, carbon dioxide is generally not a toxic substance, but when the concentration of carbon dioxide in the air exceeds a certain limit, Sometimes, the body will be poisoned, and high concentrations of carbon dioxide will make people suffocate.   Animal experiments have proven that in air with normal oxygen content (20%), the higher the concentration of carbon dioxide, the higher the mortality rate of animals. At the same time, animal death caused by pure carbon dioxide is more rapid than death caused by lower oxygen. In addition, some people believe that under low oxygen conditions, carbon dioxide with a concentration of 8% to 10% can cause death of humans and animals in a short period of time.