Huadai Chemical
PRODUCTS
Acrolein
Huadai Chemical
|
HS Code |
295673 |
| Chemical Formula | C3H4O |
| Molar Mass | 56.063 g/mol |
| Appearance | Colorless to yellow - green liquid |
| Odor | Pungent, acrid odor |
| Density | 0.842 g/cm³ at 20 °C |
| Melting Point | -87.7 °C |
| Boiling Point | 52.5 - 53.5 °C |
| Solubility In Water | 20.6 g/100 mL at 20 °C |
| Vapor Pressure | 31.6 kPa at 20 °C |
| Flash Point | -26 °C |
| Auto Ignition Temperature | 234 °C |
| Refractive Index | 1.4019 at 20 °C |
| Packing | Acrolein packaged in 5 - liter containers for chemical use. |
| Storage | Acrolein is a highly toxic and reactive chemical. It should be stored in a cool, well - ventilated area, away from heat, flames, and oxidizing agents. Keep it in a tightly - sealed container made of compatible materials like stainless steel. Store it separately from incompatible substances to prevent reactions. Regularly check for leaks to ensure safety. |
| Shipping | Acrolein is a highly hazardous chemical. Shipping must follow strict regulations. It's transported in specialized containers, ensuring leak - proof and proper ventilation, with detailed safety labels, to prevent risks during transit. |
For samples, pricing, or more information, please call us at +8615365036030 or mail to info@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615365036030
Email: info@alchemist-chem.com
Historical Development
"The Historical Development of Acronin"
Acronin is a chemical substance. Its initial discovery was in the process of scientific exploration. In the past, scholars worked tirelessly in the field of chemical research to gradually investigate this thing. Although early cognition was limited, its unique properties have been realized.
With the passage of time, technology has advanced, and the research on acronin has become more and more in-depth. Experiments have been carried out to clarify its structure and characteristics. After the rise of industry, acronin has become more widely used and has emerged in many fields of chemical production.
The historical development of acronin is a witness to scientific progress and human exploration. Its contribution to the chemical industry is expected to be more significant in the future.
Acronin is a chemical substance. Its initial discovery was in the process of scientific exploration. In the past, scholars worked tirelessly in the field of chemical research to gradually investigate this thing. Although early cognition was limited, its unique properties have been realized.
With the passage of time, technology has advanced, and the research on acronin has become more and more in-depth. Experiments have been carried out to clarify its structure and characteristics. After the rise of industry, acronin has become more widely used and has emerged in many fields of chemical production.
The historical development of acronin is a witness to scientific progress and human exploration. Its contribution to the chemical industry is expected to be more significant in the future.
Product Overview
Acrorin is also an organic compound. It is a colorless and transparent liquid with a pungent odor and is highly volatile.
This substance is widely used in industrial fields and can be used in the synthesis of many important chemicals. For example, in the preparation of acrylic acids and their esters, acaldehyde is a key intermediary. Through a series of chemical reactions, it can be converted into various high-value-added products, which are widely used in paints, adhesives and other industries.
However, acaldehyde is quite toxic and is very harmful to the human body. Its vapor can irritate the eyes and respiratory mucosa, causing tears, coughing and other discomfort. If accidentally touched with the skin, it can also cause burns. Therefore, in the production and use of acaldehyde, strict protective measures must be taken to ensure the safety of personnel and the environment from pollution.
This substance is widely used in industrial fields and can be used in the synthesis of many important chemicals. For example, in the preparation of acrylic acids and their esters, acaldehyde is a key intermediary. Through a series of chemical reactions, it can be converted into various high-value-added products, which are widely used in paints, adhesives and other industries.
However, acaldehyde is quite toxic and is very harmful to the human body. Its vapor can irritate the eyes and respiratory mucosa, causing tears, coughing and other discomfort. If accidentally touched with the skin, it can also cause burns. Therefore, in the production and use of acaldehyde, strict protective measures must be taken to ensure the safety of personnel and the environment from pollution.
Physical & Chemical Properties
It has a pungent odor. It is a colorless and transparent liquid at room temperature, with a boiling point of about 57 degrees Celsius. It is flammable and highly volatile. From the perspective of chemical properties, carbon-containing double bonds and aldehyde groups have high chemical activity. Addition reactions can occur, such as addition with hydrogen to form propanol; oxidation reactions can also occur, and can be oxidized to acrylic acid by weak oxidants such as silver ammonia solutions. Physically, it is slightly soluble in water and miscible in most organic solvents such as ethanol and ether. Due to its special physical and chemical properties, it is widely used in industrial synthesis and can be used to prepare a variety of organic materials. However, due to its toxicity and irritation, it needs to be used with caution.
Technical Specifications & Labeling
"Technical Specifications and Labeling (Product Parameters) of Acrorin"
Acrorin is also a chemical product. Its technical specifications are related to purity and must reach extremely high standards. The impurity content must be strictly limited to meet the needs of use.
As for the logo, on the packaging, it should be marked with the name of Acrorin in a prominent manner, with warning words. Because of its toxicity and irritation, to prevent inadvertent contact. Among the product parameters, physical data such as density and boiling point must also be accurately marked so that the user can understand its characteristics. In this way, during production, storage and use, it can be carried out in accordance with specifications, ensuring safety and security, and ensuring product quality.
Acrorin is also a chemical product. Its technical specifications are related to purity and must reach extremely high standards. The impurity content must be strictly limited to meet the needs of use.
As for the logo, on the packaging, it should be marked with the name of Acrorin in a prominent manner, with warning words. Because of its toxicity and irritation, to prevent inadvertent contact. Among the product parameters, physical data such as density and boiling point must also be accurately marked so that the user can understand its characteristics. In this way, during production, storage and use, it can be carried out in accordance with specifications, ensuring safety and security, and ensuring product quality.
Preparation Method
Acrorin is also an organic compound. The method of its preparation is related to the raw material and production process, reaction steps and catalytic mechanism.
To make acaldehyde, acrylic is often used as the initial raw material. Under a specific temperature and pressure, air or oxygen is introduced, and the force of the catalyst is used to initiate an oxidation reaction. The reaction step is the activation of the double bond in the propylene molecule, which is combined with the oxygen atom, and goes through a complex intermediate state to eventually form acrylic aldehyde. The catalysts used are mostly composite metal oxides such as molybdenum and bismuth. The catalytic mechanism is to provide an activity check point, reduce the reaction energy barrier, and promote the efficient progress of the reaction. The production process also needs to be carefully controlled. Parameters such as temperature, pressure, and gas flow rate are all related to the yield and purity of acaldehyde. In this way, only high-quality acaldehyde products can be obtained.
To make acaldehyde, acrylic is often used as the initial raw material. Under a specific temperature and pressure, air or oxygen is introduced, and the force of the catalyst is used to initiate an oxidation reaction. The reaction step is the activation of the double bond in the propylene molecule, which is combined with the oxygen atom, and goes through a complex intermediate state to eventually form acrylic aldehyde. The catalysts used are mostly composite metal oxides such as molybdenum and bismuth. The catalytic mechanism is to provide an activity check point, reduce the reaction energy barrier, and promote the efficient progress of the reaction. The production process also needs to be carefully controlled. Parameters such as temperature, pressure, and gas flow rate are all related to the yield and purity of acaldehyde. In this way, only high-quality acaldehyde products can be obtained.
Chemical Reactions & Modifications
In the past, its preparation relied on cumbersome methods, and the yield was not good, and impurities disturbed it.
Looking at the reaction, it can interact with nucleophiles and electrophiles to form a variety of products. However, its activity is high and the selectivity is difficult to control. In order to change its properties, chemists try to change the reaction path by catalysis.
In recent years, a new catalytic system has been developed, which makes the Acrorin reaction highly selective and the yield is also increased. And under mild conditions, it can also be carried out efficiently. Such progress has opened up a new path for its industrial application, and it is expected to develop its talents in the fields of materials, drugs, etc., develop the industry of chemistry, and benefit the needs of people's lives.
Looking at the reaction, it can interact with nucleophiles and electrophiles to form a variety of products. However, its activity is high and the selectivity is difficult to control. In order to change its properties, chemists try to change the reaction path by catalysis.
In recent years, a new catalytic system has been developed, which makes the Acrorin reaction highly selective and the yield is also increased. And under mild conditions, it can also be carried out efficiently. Such progress has opened up a new path for its industrial application, and it is expected to develop its talents in the fields of materials, drugs, etc., develop the industry of chemistry, and benefit the needs of people's lives.
Synonyms & Product Names
Acrorin is also a chemical compound. Its trade name is the same, and it is also the same as what we have studied. Acrorin is also a fatty aldehyde. Its trade name, in the market, may be referred to as "allylic aldehyde". This chemical compound is active and has a wide range of uses. In the field of industry, it is mostly used for manufacturing chemical compounds. Because of its special chemical properties, it can be used as a raw material for synthesis and a step forward in the chemical industry. Studying its same trade name will help to clarify the quality of related products in the market, avoid confusion, and enable us to communicate with chemical research and development, express the essence, and promote the research and application of chemical products.
Safety & Operational Standards
Code of Safety and Operation for Acroaldehyde Products
Acroaldehyde is also an unsaturated aldehyde compound with strong irritation. It is widely used in the industrial field, but because of its high toxicity and danger, safety and operation standards are of paramount importance.
#1. Storage Safety
The place where acroaldehyde is stored must be cool and well ventilated. Keep away from fire and heat sources, and the storage temperature should not exceed 26 ° C. It should be stored separately from oxidants, acids, alkalis, and edible chemicals, and should not be mixed. Use explosion-proof lighting and ventilation facilities, and prohibit the use of mechanical equipment and tools that are prone to sparks. The storage area should be equipped with leakage emergency treatment equipment and suitable containment materials.
#II. Transportation Safety
During transportation, the package must be sealed to ensure that it does not leak, collapse, fall, or damage. It is strictly forbidden to mix and transport with oxidants, acids, alkalis, and edible chemicals. During transportation, it is protected from exposure to the sun, rain, and high temperature. After the vehicle is transported, it should be thoroughly cleaned. When shipping, the assembly position should be far away from the bedroom, kitchen, and isolated from the engine room, power supply, fire source, etc.
#III. Operation Specifications
Operators must undergo special training and strictly abide by the operating procedures. It is recommended that operators wear self-priming filter gas masks (full face masks), anti-static overalls, and rubber gloves. Keep away from fire and heat sources, and smoking is strictly prohibited in the workplace. Use explosion-proof ventilation systems and equipment. Prevent steam leakage into the workplace air. Avoid contact with oxidants, acids, and alkalis. Filling should control the flow rate and have a grounding device to prevent the accumulation of static electricity. When handling, it should be handled lightly and lightly to prevent damage to packaging and containers. Equipped with the corresponding variety and quantity of fire equipment and leakage emergency treatment equipment.
All storage, transportation and operation of acrylic must be strictly carried out in accordance with the above safety and operation specifications to ensure the safety of personnel and the environment.
Acroaldehyde is also an unsaturated aldehyde compound with strong irritation. It is widely used in the industrial field, but because of its high toxicity and danger, safety and operation standards are of paramount importance.
#1. Storage Safety
The place where acroaldehyde is stored must be cool and well ventilated. Keep away from fire and heat sources, and the storage temperature should not exceed 26 ° C. It should be stored separately from oxidants, acids, alkalis, and edible chemicals, and should not be mixed. Use explosion-proof lighting and ventilation facilities, and prohibit the use of mechanical equipment and tools that are prone to sparks. The storage area should be equipped with leakage emergency treatment equipment and suitable containment materials.
#II. Transportation Safety
During transportation, the package must be sealed to ensure that it does not leak, collapse, fall, or damage. It is strictly forbidden to mix and transport with oxidants, acids, alkalis, and edible chemicals. During transportation, it is protected from exposure to the sun, rain, and high temperature. After the vehicle is transported, it should be thoroughly cleaned. When shipping, the assembly position should be far away from the bedroom, kitchen, and isolated from the engine room, power supply, fire source, etc.
#III. Operation Specifications
Operators must undergo special training and strictly abide by the operating procedures. It is recommended that operators wear self-priming filter gas masks (full face masks), anti-static overalls, and rubber gloves. Keep away from fire and heat sources, and smoking is strictly prohibited in the workplace. Use explosion-proof ventilation systems and equipment. Prevent steam leakage into the workplace air. Avoid contact with oxidants, acids, and alkalis. Filling should control the flow rate and have a grounding device to prevent the accumulation of static electricity. When handling, it should be handled lightly and lightly to prevent damage to packaging and containers. Equipped with the corresponding variety and quantity of fire equipment and leakage emergency treatment equipment.
All storage, transportation and operation of acrylic must be strictly carried out in accordance with the above safety and operation specifications to ensure the safety of personnel and the environment.
Application Area
Acrorin is also a chemical substance. It has a wide range of uses. In the field of industry, it is often a raw material for the synthesis of many important compounds. With its active characteristics, it can participate in a variety of chemical reactions and assist in the preparation of various fine chemicals.
In the field of materials, it is also used. Or it can be integrated into certain materials through special processes to improve its properties and make it more tough and durable.
And in the path of scientific research, Acrorin is also an important research object. Through the study of its properties and reactions, scholars expand the boundaries of chemical cognition, explore more potential application possibilities, and pave new paths for the progress of science and technology and the development of industry. Its potential in various application fields cannot be ignored.
In the field of materials, it is also used. Or it can be integrated into certain materials through special processes to improve its properties and make it more tough and durable.
And in the path of scientific research, Acrorin is also an important research object. Through the study of its properties and reactions, scholars expand the boundaries of chemical cognition, explore more potential application possibilities, and pave new paths for the progress of science and technology and the development of industry. Its potential in various application fields cannot be ignored.
Research & Development
I am committed to the research and development of Acrorin products. This substance has unique properties and is useful in various fields of chemical industry.
At the time of initial research, there were many difficulties. To analyze its nature, it is difficult to find a good method; to make it pure, it has failed many times. However, I did not dare to give up, I studied it day and night, consulted classics, and visited famous teachers.
Gradually gain something, know the way of its synthesis, and can get different effects due to different methods. And explore its application in the system of materials, which can increase its strength; in the research of medicine, there may be a new way.
Although there is a little success today, the road ahead is still far away. When we move forward, we hope to expand its use, increase its efficiency, and contribute to the prosperity of the chemical industry, so that this product can shine in various industries and promote the progress of the industry.
At the time of initial research, there were many difficulties. To analyze its nature, it is difficult to find a good method; to make it pure, it has failed many times. However, I did not dare to give up, I studied it day and night, consulted classics, and visited famous teachers.
Gradually gain something, know the way of its synthesis, and can get different effects due to different methods. And explore its application in the system of materials, which can increase its strength; in the research of medicine, there may be a new way.
Although there is a little success today, the road ahead is still far away. When we move forward, we hope to expand its use, increase its efficiency, and contribute to the prosperity of the chemical industry, so that this product can shine in various industries and promote the progress of the industry.
Toxicity Research
Toxicity Study on Acrorin Products
Today's research on the toxicity of Acrorin is an important matter for everyone's health and environmental tranquility. Acrorin is highly irritating and toxic. After various experiments, it can cause multiple damage to the biological body.
After entering the body, it can damage the respiratory system, cause airway inflammation, edema and other diseases, and even endanger life. Looking at animal experiments, it is also irritating to the eyes, skin, etc., and can cause redness, swelling and pain when touched.
It also examines its impact on the environment. In aquatic ecology, it can endanger the survival of aquatic organisms. Plankton, fish, etc., or growth is blocked, or reproduction is hindered.
In summary, Acrorin is significantly toxic. During production and use, strict protection measures should be taken to control its emissions to ensure life and well-being and environmental peace.
Today's research on the toxicity of Acrorin is an important matter for everyone's health and environmental tranquility. Acrorin is highly irritating and toxic. After various experiments, it can cause multiple damage to the biological body.
After entering the body, it can damage the respiratory system, cause airway inflammation, edema and other diseases, and even endanger life. Looking at animal experiments, it is also irritating to the eyes, skin, etc., and can cause redness, swelling and pain when touched.
It also examines its impact on the environment. In aquatic ecology, it can endanger the survival of aquatic organisms. Plankton, fish, etc., or growth is blocked, or reproduction is hindered.
In summary, Acrorin is significantly toxic. During production and use, strict protection measures should be taken to control its emissions to ensure life and well-being and environmental peace.
Future Prospects
In addition, in the synthesis method, it is also necessary to reduce its cost and increase its quantity. And in the application, it is expected to be expanded to more new fields, such as cutting-edge materials, high-efficiency energy technologies, etc.
In the future, it can be improved in the technology of improvement, so that its performance is higher, and it is needed for high-precision technology. In addition, in the synthesis method, it is hoped that it can have new ways, reduce its cost, and increase its quantity. And in the application, it is expected to be expanded to more new fields, such as cutting-edge materials, high-efficiency energy technologies, etc.
Our researchers will work hard to promote the development of Acrorin, so that it can be used in the world and benefit the people in the future.
In the future, it can be improved in the technology of improvement, so that its performance is higher, and it is needed for high-precision technology. In addition, in the synthesis method, it is hoped that it can have new ways, reduce its cost, and increase its quantity. And in the application, it is expected to be expanded to more new fields, such as cutting-edge materials, high-efficiency energy technologies, etc.
Our researchers will work hard to promote the development of Acrorin, so that it can be used in the world and benefit the people in the future.
What are the main uses of Acrorin?
Acronaldehyde has a wide range of uses. Its main use is as a raw material for organic synthesis. In industry, a variety of chemicals can be made. Such as the preparation of acrylic acid and its esters, which are widely used in paints, adhesives and other fields. In paints, it can make the coating more tough and durable, and in adhesives, it can increase its viscosity and stability.
In addition, acronaldehyde can be used to synthesize glycerol. Glycerin is indispensable in medicine, food, cosmetics and other industries. In medicine, it is used as a solvent and moisturizer; in the food industry, it is a sweetener and moisturizing ingredient; in cosmetics, it can keep the skin hydrated.
In addition, acronaldehyde is also used in agriculture. Pesticides can be made to remove pests, protect the growth of crops, and ensure a good harvest.
Because of its special chemical properties, it is often an important starting material when studying new compounds and new materials, helping researchers to open up new horizons and create more beneficial things. Therefore, acronin plays a key role in many fields and has a profound impact on human production and life.
In addition, acronaldehyde can be used to synthesize glycerol. Glycerin is indispensable in medicine, food, cosmetics and other industries. In medicine, it is used as a solvent and moisturizer; in the food industry, it is a sweetener and moisturizing ingredient; in cosmetics, it can keep the skin hydrated.
In addition, acronaldehyde is also used in agriculture. Pesticides can be made to remove pests, protect the growth of crops, and ensure a good harvest.
Because of its special chemical properties, it is often an important starting material when studying new compounds and new materials, helping researchers to open up new horizons and create more beneficial things. Therefore, acronin plays a key role in many fields and has a profound impact on human production and life.
What are the dangers of Acrolin to human health?
Acronin is highly toxic, and it is very harmful to people's health.
The first to bear the brunt is the damage to people's breathing. Acronin gas, entering the lungs, can stimulate their airways, causing cough, asthma, chest tightness and other diseases. What's more, it can make the lungs swollen and endanger life. Looking at the fields of industry, if people are exposed to the atmosphere containing acronin, their breathing diseases are common.
The next time it hurts the eyes and skin. Acronin touches the skin and can cause burns, itching, redness and swelling. If it enters the eyes, it can damage the tissues of the eyes, and it can cause eye pain, tears, and blindness. Therefore, those who use this thing must not be unprepared for protective equipment.
Furthermore, it is harmful to digestion. If acronin is ingested by mistake, the stomach and intestines will be harmed, causing nausea, vomiting, abdominal pain, and even damage the mucosa of the stomach and intestines, leading to serious disease.
And acronin is metabolized in the human body, or causes cell changes, increasing the risk of cancer. Although there is no conclusive evidence for the time being, its potential danger cannot be ignored.
The world must be careful about acronin. Workers must be well protected in their work to avoid its harm. The common people also need to understand its risks and protect their own health from it.
The first to bear the brunt is the damage to people's breathing. Acronin gas, entering the lungs, can stimulate their airways, causing cough, asthma, chest tightness and other diseases. What's more, it can make the lungs swollen and endanger life. Looking at the fields of industry, if people are exposed to the atmosphere containing acronin, their breathing diseases are common.
The next time it hurts the eyes and skin. Acronin touches the skin and can cause burns, itching, redness and swelling. If it enters the eyes, it can damage the tissues of the eyes, and it can cause eye pain, tears, and blindness. Therefore, those who use this thing must not be unprepared for protective equipment.
Furthermore, it is harmful to digestion. If acronin is ingested by mistake, the stomach and intestines will be harmed, causing nausea, vomiting, abdominal pain, and even damage the mucosa of the stomach and intestines, leading to serious disease.
And acronin is metabolized in the human body, or causes cell changes, increasing the risk of cancer. Although there is no conclusive evidence for the time being, its potential danger cannot be ignored.
The world must be careful about acronin. Workers must be well protected in their work to avoid its harm. The common people also need to understand its risks and protect their own health from it.
What are the forms of activin in the environment?
Acraldehyde exists in the environment in gaseous, liquid and solid forms. Gaseous acraldehyde is light and easy to escape, often floating in the atmosphere, can migrate with the wind, easily absorbed by the human body, invading the respiratory tract, causing cough, asthma, sore throat and other diseases. Liquid acraldehyde is highly volatile and is commonly found in water bodies or some chemical wastes. If it enters rivers, lakes and seas, it will pollute water sources and harm aquatic organisms. As for solid state, although less common, it can adhere to soil or other particulate matter, gradually release in the environment, slowly seep into groundwater, endangering the surrounding ecology.
Acraldehyde is extremely active and easily reacts chemically with other substances in the environment. In the atmosphere, it can react with oxygen, free radicals, etc., to generate new pollutants. In water, it can react with substances in water or be degraded by microorganisms, but its degradation products may still be toxic. Due to its high toxicity and reactivity, the monitoring and control of acronin in the environment is crucial, and it must be treated with caution to prevent it from causing disasters to ecology and human health.
Acraldehyde is extremely active and easily reacts chemically with other substances in the environment. In the atmosphere, it can react with oxygen, free radicals, etc., to generate new pollutants. In water, it can react with substances in water or be degraded by microorganisms, but its degradation products may still be toxic. Due to its high toxicity and reactivity, the monitoring and control of acronin in the environment is crucial, and it must be treated with caution to prevent it from causing disasters to ecology and human health.
What are the production methods of Acrorin?
The first method is to use glycerol as raw material. In the past, glycerol was often co-heated with a dehydrating agent to dehydrate it to produce acronaldehyde. If glycerol is mixed with potassium bisulfate, when heated, glycerol removes a molecule of water to obtain acronaldehyde. Among them, potassium bisulfate is used as a dehydrating agent to help the hydroxyl groups in the glycerol molecule combine with adjacent hydrogen atoms to synthesize water and remove it. The reaction formula is roughly: $C_3H_8O_3\ xrightarrow {KHSO_4} C_3H_4O + 2H_2O $.
Second, it is obtained by the catalytic oxidation of propylene. Under suitable catalyst and reaction conditions, propylene interacts with oxygen to generate acronaldehyde. The catalysts used are commonly molybdenum bismuth series. In this process, some of the hydrogen atoms in the acrylic molecule are oxidized, and the double bonds are also changed to form acronaldehyde. This reaction requires precise regulation of temperature, pressure, and the proportion of reactants to ensure that the reaction is efficient and selective.
Third, the condensation oxidation method using formaldehyde and acetaldehyde as raw materials. Under the action of a basic catalyst, formaldehyde and acetaldehyde first undergo a condensation reaction to generate 3-hydroxypropionaldehyde, which is then oxidized and converted into acronaldehyde. This process goes step by step. The condensation reaction connects the two molecules of aldehyde, and the oxidation step converts the hydroxyl group into a carbonyl group, achieving the transformation from an aldehyde compound to acronaldehyde.
All these preparation methods have their own advantages and disadvantages, and they need to be carefully selected according to the actual situation, such as the availability of raw materials, cost, product purity, and many other factors.
What to pay attention to in the storage and transportation of Acrorin
"Tiangong Kaiwu" says: "The storage and transportation of all things have their own needs. Be especially cautious when it comes to acrolin."
acrolin is highly irritating and toxic. When storing it, it must be in a cool, ventilated place away from fire and heat sources. The storage temperature should be controlled below 26 ° C to prevent it from decomposing and exploding due to heat. And it must be stored in isolation from oxidants, reducing agents, acids, alkalis, etc. Do not mix storage, because they meet, or cause violent reactions, endangering safety.
Storage vessels should be tightly sealed to prevent leakage. It can be made of corrosion-resistant materials, such as containers made of special steel or plastic, but it needs to be tested to prove that there is no chemical reaction with acrorin. In the warehouse, there should be leakage emergency treatment equipment and suitable containment materials.
When transporting acrorin, the transportation vehicle should be equipped with the corresponding variety and quantity of fire equipment and leakage emergency treatment equipment. Summer transportation should be selected in the morning and evening to avoid its high temperature. During transportation, make sure that the container does not leak, collapse, fall, or damage. During the journey, it should not be mixed with other goods, and the speed of the vehicle should not be too fast to prevent the container from colliding due to sudden braking. Escort personnel must be familiar with the characteristics and emergency handling methods of acrorin, and always pay attention to the transportation situation to ensure the safety of transportation.
acrolin is highly irritating and toxic. When storing it, it must be in a cool, ventilated place away from fire and heat sources. The storage temperature should be controlled below 26 ° C to prevent it from decomposing and exploding due to heat. And it must be stored in isolation from oxidants, reducing agents, acids, alkalis, etc. Do not mix storage, because they meet, or cause violent reactions, endangering safety.
Storage vessels should be tightly sealed to prevent leakage. It can be made of corrosion-resistant materials, such as containers made of special steel or plastic, but it needs to be tested to prove that there is no chemical reaction with acrorin. In the warehouse, there should be leakage emergency treatment equipment and suitable containment materials.
When transporting acrorin, the transportation vehicle should be equipped with the corresponding variety and quantity of fire equipment and leakage emergency treatment equipment. Summer transportation should be selected in the morning and evening to avoid its high temperature. During transportation, make sure that the container does not leak, collapse, fall, or damage. During the journey, it should not be mixed with other goods, and the speed of the vehicle should not be too fast to prevent the container from colliding due to sudden braking. Escort personnel must be familiar with the characteristics and emergency handling methods of acrorin, and always pay attention to the transportation situation to ensure the safety of transportation.
Scan to WhatsApp
