An oxygen regulator controls the flow of oxygen from a compressed gas cylinder to a torch or other equipment. An acetylene regulator performs the same function but is specifically designed to handle the characteristics of acetylene gas, which is highly flammable and requires a different pressure setting compared to oxygen.
Oxygen cylinders are typically larger and heavier than acetylene cylinders due to the higher pressure at which oxygen is stored. Oxygen cylinders may also contain more volume of gas compared to acetylene cylinders.
On an oxygen tank regulator, you can observe the pressure gauge that shows the level of oxygen remaining in the tank. There may also be a flowmeter that controls the rate of oxygen flow to the patient. Additionally, some regulators have a pressure-relief valve to release excess pressure for safety.
Oxygen and acetylene gases are used in oxy-acetylene welding. Oxygen is essential for combustion, while acetylene provides the necessary heat for welding processes.
For cutting 12.7mm sheet with a positive pressure torch, oxygen pressure should typically be set around 30-40 PSI, while acetylene pressure should be set around 5-10 PSI. These pressures may need to be adjusted based on the specific torch and cutting conditions. Always refer to the manufacturer's guidelines for the most accurate pressure recommendations.
An oxygen regulator controls the flow of oxygen from a compressed gas cylinder to a torch or other equipment. An acetylene regulator performs the same function but is specifically designed to handle the characteristics of acetylene gas, which is highly flammable and requires a different pressure setting compared to oxygen.
Oxygen cylinders are typically larger and heavier than acetylene cylinders due to the higher pressure at which oxygen is stored. Oxygen cylinders may also contain more volume of gas compared to acetylene cylinders.
The function of an oxygen cylinder regulator is to control the flow of oxygen from the cylinder to the patient. It ensures a consistent and safe flow rate of oxygen for the patient's respiratory needs. The regulator typically has a pressure gauge to monitor the amount of oxygen remaining in the cylinder.
On an oxygen tank regulator, you can observe the pressure gauge that shows the level of oxygen remaining in the tank. There may also be a flowmeter that controls the rate of oxygen flow to the patient. Additionally, some regulators have a pressure-relief valve to release excess pressure for safety.
GASSES - Oxygen and Acetylene. Acetylene is sometimes replaced by a mixture of gasses. The Oxygen increases the burning rate/temperature of Acetylene and temperatures in excess of 6,000o F can be reached.
Oxygen and acetylene gases are used in oxy-acetylene welding. Oxygen is essential for combustion, while acetylene provides the necessary heat for welding processes.
An oxygen-acetylene torch can burn underwater because it produces its own oxygen supply. The torch separates water into its constituent hydrogen and oxygen gases, then uses the oxygen to support the combustion of the acetylene. This allows the torch to continue burning even in an underwater environment.
Oxygen and acetylene are used.
In normal usage in an oxy/acetylene cutting torch, the acetylene hose is red and the oxygen hose is green.
For cutting 12.7mm sheet with a positive pressure torch, oxygen pressure should typically be set around 30-40 PSI, while acetylene pressure should be set around 5-10 PSI. These pressures may need to be adjusted based on the specific torch and cutting conditions. Always refer to the manufacturer's guidelines for the most accurate pressure recommendations.
To burn 1 mole of acetylene (C2H2), 3 moles of oxygen (O2) are required. The molar mass of acetylene is 26.04 g/mol and of oxygen is 32.00 g/mol. First, convert 13.50g acetylene to moles, calculate the moles of oxygen required, and then convert back to grams to find the mass of oxygen needed.
Acetylene is commonly used in welding with oxygen to create a high-temperature flame for cutting and welding metal.