No, however they can be combustable when compressed or mixed with air.
When two or more refrigerants are mixed, the mixture must be analyzed to determine its properties and performance characteristics, as it may not behave like a single refrigerant. It is crucial to ensure the mixture is compatible with the system components and meets the required thermodynamic performance. Additionally, proper labeling and handling procedures must be followed to avoid any safety hazards. Ideally, mixed refrigerants should be avoided unless specifically designed for use in that form.
Under two circumstances: if it will explode after applying the necessary amount of initiating energy to itor if it will form an explosive when mixed with other chemicals
When two or more refrigerants are mixed, the mixture must be thoroughly analyzed to determine its properties, such as boiling point and pressure, to ensure safe and efficient operation. It's crucial to avoid mixing incompatible refrigerants, as this can lead to chemical reactions or reduced cooling efficiency. Additionally, the system should be purged and evacuated before introducing the refrigerant mixture to prevent contamination. Proper labeling and documentation of the mixture are also essential for maintenance and safety purposes.
Many refrigerants cause damage to the ozone layer. These are CFC's.
Under normal circumstances calcium is not explosive. But it is somewhat reactive. Remember that calcium is an Alkaline Earth Metal in Group 2 of the periodic table. It will react with air and form an oxide or nitride coating. And it reacts with water and forms hydrogen, but not at a rapid rate. It is difficult to set alight, but will burn intensely when ignited. As a raw metal, it is fairly stable, but is stored in a liquid to keep it from reacting with air or the water in air. Use the link below to learn more.
no refrigerants can be mixed.
SMS- site mixed slurry explosive PMS- plant mixed slurry explosive
There are no alternative refrigerants than can be added on top of/mixed with R-12.
Cfc-12
Hydrogen is the element commonly used in balloons that can be explosive when mixed with oxygen in the presence of a spark or flame.
Refrigerants should not be mixed in the same recovery cylinder, as different refrigerants have varying properties and can react adversely with one another. Each refrigerant type should be recovered into its designated cylinder to ensure safety and compliance with regulations. This practice helps maintain the integrity of the refrigerants for proper recycling or disposal. Therefore, ideally, only one type of refrigerant should be recovered in a single cylinder.
It is usally ash mixed with lava.
Sulfur itself is not explosive, but it can support combustion and may become explosive when mixed with other substances, such as saltpeter or charcoal, to form gunpowder. Pure sulfur typically combusts to produce sulfur dioxide gas rather than an explosion.
HFC refrigerants
Inorganic refrigerants are refrigerants that do not contain carbon atoms in their molecular structure. Common examples include ammonia (NH3), carbon dioxide (CO2), and water (H2O). These refrigerants are often used in industrial applications and have varying environmental impacts.
Under two circumstances: if it will explode after applying the necessary amount of initiating energy to itor if it will form an explosive when mixed with other chemicals
It is a jelly type explosive that can be pumped into holes in rock for blasting. It is an emulsion (where two things that don't usually mix are mixed- like oil and water) It consists of an oxidizer and a fuel, mixed into a water base. It is a safe and economical explosive for mining and mass excavations in construction. May also be called a "water gel".