L'absent
À ma manière 🪦
- Aug 18, 2024
- 1,184
The method combines the historical effectiveness of the noose with the modern technology of nitrogen to ensure a completely painless and irreversible process. To execute it, you need a strong rope to create a properly positioned noose around the neck. The knot should be placed behind one ear, preferably the left, to maximize the compression of the carotid arteries and the trachea during the fall. To this setup, you add a small compressed nitrogen cylinder carried in a backpack, equipped with a flow regulator to release gas at a constant rate of at least 15-20 liters per minute. The cylinder is connected to a well-fitted facial mask that must be securely fastened to the face to prevent air from leaking in from the outside.
Once standing on a chair or a similar support, the process begins by opening the valve of the cylinder, allowing pure nitrogen to rapidly replace the oxygen in the lungs. Within seconds, the oxygen saturation in the blood drops drastically, leading to unconsciousness within 15-30 seconds without any sensation of suffocation or distress, as the body does not detect the lack of oxygen but only the buildup of carbon dioxide, which is absent in this case.
When the person loses consciousness, their body relaxes and falls off the chair, activating the noose. The fall causes immediate compression of the carotid arteries, cutting off blood flow to the brain, and the trachea, preventing breathing. If the noose is properly positioned and the fall is sufficient, a cervical fracture may occur, ensuring instantaneous death. Otherwise, cerebral ischemia and asphyxiation will still lead to death within a few minutes.
The entire process is completely painless, as unconsciousness occurs before the fall, and the person does not perceive the noose or the lack of oxygen. This combination of ancient and modern elements makes the method simple yet extremely effective.
Technical data of the cylinder in the backpack.
A 2-liter 200-bar cylinder containing compressed nitrogen is more than adequate for this method and provides over 20 minutes of gas flow, even at the maximum rate.
If you prefer greater autonomy or redundancy, a 5-liter 200-bar cylinder, also with compressed nitrogen, can supply up to 50-66 minutes of gas at a continuous flow.
To make the process even simpler, you can use an automatic flow regulator integrated with the pressure reducer. This device allows you to directly set the desired flow rate (15-20 L/min) without the need for complex manual adjustments, ensuring a continuous and precise delivery of nitrogen. The flow regulator simplifies usage, minimizes errors, and makes the entire process more straightforward.
Type of mask
An oxygen therapy mask is ideal for this purpose, as it is designed to allow the continuous flow of incoming gas and the natural expulsion of exhaled air, making it perfect for using nitrogen. This type of mask is commonly used in medical settings and features a standard opening, usually with a 22 mm connector, that allows the tube from the tank to be securely attached. The mask is designed to ensure that the incoming gas flows directly to the nose and mouth, while the exhaled air, containing residual oxygen and carbon dioxide, is automatically expelled through the side openings or the same hole used for nitrogen intake. Thanks to the continuous flow of nitrogen at a rate of at least 15-20 L/min, a slight positive pressure is created inside the mask, ensuring the constant exchange of gases and preventing external air from entering. While the mask is not completely sealed like anesthesia masks, it fits tightly enough to ensure that the incoming gas dominates the respiratory environment. There is no need for a separate system to expel exhaled air, as the continuous flow and pressure generated by the nitrogen naturally and consistently replace the exhaled air, keeping the environment saturated with pure nitrogen. This makes an oxygen therapy mask a practical and effective choice without requiring modifications or additional components.
Once standing on a chair or a similar support, the process begins by opening the valve of the cylinder, allowing pure nitrogen to rapidly replace the oxygen in the lungs. Within seconds, the oxygen saturation in the blood drops drastically, leading to unconsciousness within 15-30 seconds without any sensation of suffocation or distress, as the body does not detect the lack of oxygen but only the buildup of carbon dioxide, which is absent in this case.
When the person loses consciousness, their body relaxes and falls off the chair, activating the noose. The fall causes immediate compression of the carotid arteries, cutting off blood flow to the brain, and the trachea, preventing breathing. If the noose is properly positioned and the fall is sufficient, a cervical fracture may occur, ensuring instantaneous death. Otherwise, cerebral ischemia and asphyxiation will still lead to death within a few minutes.
The entire process is completely painless, as unconsciousness occurs before the fall, and the person does not perceive the noose or the lack of oxygen. This combination of ancient and modern elements makes the method simple yet extremely effective.
Technical data of the cylinder in the backpack.
A 2-liter 200-bar cylinder containing compressed nitrogen is more than adequate for this method and provides over 20 minutes of gas flow, even at the maximum rate.
If you prefer greater autonomy or redundancy, a 5-liter 200-bar cylinder, also with compressed nitrogen, can supply up to 50-66 minutes of gas at a continuous flow.
To make the process even simpler, you can use an automatic flow regulator integrated with the pressure reducer. This device allows you to directly set the desired flow rate (15-20 L/min) without the need for complex manual adjustments, ensuring a continuous and precise delivery of nitrogen. The flow regulator simplifies usage, minimizes errors, and makes the entire process more straightforward.
Type of mask
An oxygen therapy mask is ideal for this purpose, as it is designed to allow the continuous flow of incoming gas and the natural expulsion of exhaled air, making it perfect for using nitrogen. This type of mask is commonly used in medical settings and features a standard opening, usually with a 22 mm connector, that allows the tube from the tank to be securely attached. The mask is designed to ensure that the incoming gas flows directly to the nose and mouth, while the exhaled air, containing residual oxygen and carbon dioxide, is automatically expelled through the side openings or the same hole used for nitrogen intake. Thanks to the continuous flow of nitrogen at a rate of at least 15-20 L/min, a slight positive pressure is created inside the mask, ensuring the constant exchange of gases and preventing external air from entering. While the mask is not completely sealed like anesthesia masks, it fits tightly enough to ensure that the incoming gas dominates the respiratory environment. There is no need for a separate system to expel exhaled air, as the continuous flow and pressure generated by the nitrogen naturally and consistently replace the exhaled air, keeping the environment saturated with pure nitrogen. This makes an oxygen therapy mask a practical and effective choice without requiring modifications or additional components.
Last edited:
