Discover the seamless conversion from Ton-hour refrigeration (TR-h) to Newton Meter (Nm) with Newtum's intuitive tool. Perfect for engineers and technicians seeking accurate energy translations.
A Ton-hour is a unit of energy that represents the amount of cooling or refrigeration required to freeze a metric ton (1000 kilograms) of water at 0°C in 24 hours. It is commonly used in the refrigeration and air conditioning industry to measure the capacity of cooling systems.
Definition of Newton-meterA Newton-meter is a unit of torque in the metric system. It represents the torque resulting from a force of one newton applied perpendicularly to a moment arm that is one meter long. It is used to quantify rotational force in various applications such as engineering and physics.
| Ton-hour (TR-h) | Newton Meter (Nm) |
|---|---|
| 0.1 TR-h | 1266200 Nm |
| 0.2 TR-h | 2532400 Nm |
| 0.3 TR-h | 3798600 Nm |
| 0.4 TR-h | 5064800 Nm |
| 0.5 TR-h | 6331000 Nm |
| 0.6 TR-h | 7597200 Nm |
| 0.7 TR-h | 8863400 Nm |
| 0.8 TR-h | 10129600 Nm |
| 0.9 TR-h | 11395800 Nm |
| 1 TR-h | 12662000 Nm |
1 TR-h = 3,516,852.85 Nm
1 Nm = 2.843 x 10
-7
TR-h
Example 1:
convert 0.5 TR-h to Nm:
0.5 TR-h = 0.5 × 3,516,852.85 Nm = 1,758,426.425 Nm
Example 2:
convert 2 TR-h to Nm:
2 TR-h = 2 × 3,516,852.85 Nm = 7,033,705.7 Nm
The concept of Ton-hour refrigeration originated from the ice-making industry, where it was a measure of the energy needed to freeze a ton of water over 24 hours. The conversion to Newton Meter provides a link to mechanical energy and torque, bridging the gap between thermodynamics and mechanics.
Explore the real-world impact of converting TR-h to Nm and how this tool facilitates various industrial and engineering applications.
Example 1:
Convert 0.25 TR-h to Nm:
0.25 TR-h = 0.25 × 3,516,852.85 Nm = 879,213.2125 Nm
Example 2:
Convert 1.5 TR-h to Nm:
1.5 TR-h = 1.5 × 3,516,852.85 Nm = 5,275,279.275 Nm
