| Type | Industrial and cooking process |
| Effects | Industrial operations • Cooking methods |
| World type | Alternate world |
| Consequences | Significant consequences for industry and cooking |
| Process name | Incandescent Boiling |
| Temperature range | Far higher than 100 degrees Celsius |
| Participating medium | Water |
| Atmospheric conditions | Dense, hot atmosphere |
In this alternate timeline, the phenomenon known as Incandescent Boiling describes the boiling of water at temperatures much higher than the familiar 100 degrees Celsius. This unusual characteristic of water affects a wide range of industrial processes and cooking methods unique to this reality.
The high boiling point exhibited in Incandescent Boiling is caused by a considerably denser and hotter atmosphere in this timeline. This atmospheric condition enables water to reach boiling temperatures upwards of 200 degrees Celsius, a significant departure from the conventional boiling point of 100 degrees Celsius.
This unique boiling point affects numerous industrial operations related to the processing of liquids. Specifically, industries that rely on the vaporization or separation of substances containing water, such as desalination and distillation, experience significant changes. As a result, specialized equipment and techniques have been developed to accommodate the higher boiling temperatures of water in this timeline.
The Incandescent Boiling phenomenon has also profoundly affected cooking and food preparation methods. Traditional boiling-based dishes, such as stews and broths, are prepared using distinct techniques that account for the higher boiling temperature of water. Furthermore, the high boiling point of water enables the creation of unique culinary delicacies, as the high temperatures promote specific chemical reactions and flavors unattainable in our reality.
The term "Incandescent Boiling" has been coined in this timeline to describe the process of water boiling at such extreme temperatures. It is thought to stem from the appearance of the boiling water, which, upon reaching the high temperature, begins to exhibit a bright, striking glow, reminiscent of the glowing red-hot element in an incandescent light bulb.
In conclusion, Incandescent Boiling represents a significant and intriguing difference in this alternate timeline that has far-reaching consequences on several aspects of both industrial processes and everyday life.
