Ton of refrigeration to Calories (th)/hour
TR
cal(th)/h
Conversion History
| Conversion | Reuse | Delete |
|---|---|---|
1 TR (Ton of refrigeration) → 3025972.80866194148377635243 cal(th)/h (Calories (th)/hour) Just now |
Quick Reference Table (Ton of refrigeration to Calories (th)/hour)
| Ton of refrigeration (TR) | Calories (th)/hour (cal(th)/h) |
|---|---|
| 0.5 | 1,512,986.40433097074188817622 |
| 1 | 3,025,972.80866194148377635243 |
| 2 | 6,051,945.61732388296755270486 |
| 5 | 15,129,864.04330970741888176216 |
| 10 | 30,259,728.08661941483776352432 |
| 100 | 302,597,280.86619414837763524316 |
| 500 | 1,512,986,404.3309707418881762158 |
About Ton of refrigeration (TR)
A ton of refrigeration (TR) equals 3,516.85 watts and represents the cooling power needed to freeze one short ton (2,000 lb / 907 kg) of water at 0 °C in 24 hours. It is the standard unit for commercial and industrial air conditioning and refrigeration equipment capacity in the United States and parts of Asia. A residential central air conditioner is typically 1.5–5 TR; a commercial chiller 50–500 TR; a large industrial refrigeration plant may exceed 10,000 TR.
A 3-ton residential central air conditioner removes about 10.6 kW of heat from the building. A typical office building chiller might be rated at 200–500 TR.
Etymology: Defined in the 19th century as the cooling capacity of one ton of ice melting over 24 hours, based on the latent heat of fusion of water (144 BTU/lb). Ice was the primary industrial refrigerant before mechanical refrigeration became widespread.
About Calories (th)/hour (cal(th)/h)
Calories (thermochemical) per hour (cal(th)/h) equals approximately 0.001162 watts. It is the caloric equivalent of a very low power rate, used in slow-process calorimetry, ecological energy budgets, and some older European thermal engineering texts. One watt equals approximately 860 cal(th)/h. The unit is convenient when energy budgets are counted in small-calorie increments over long periods, as in some metabolic and ecological measurements.
A resting adult radiates about 300,000 cal(th)/h (~348 W) of body heat. A small candle flame releases roughly 36,000,000 cal(th)/h (~41.8 W).
Ton of refrigeration – Frequently Asked Questions
Why is air conditioning measured in "tons" if there is no ice involved?
Before mechanical refrigeration, buildings were literally cooled with ice. A "ton of refrigeration" was the cooling you got from melting one ton of ice per day. When compressor-based AC arrived in the early 1900s, the ice-based unit stuck because the entire industry — contractors, building codes, ductwork sizing — was built around it. Telling a building owner "you need 200 tons of cooling" was intuitive when they used to order 200 tons of ice. The unit survived because switching costs exceed inconvenience costs.
How many tons of AC does a typical office building need?
Roughly 1 ton per 400–600 sq ft of office space, depending on climate, occupancy, glazing, and internal heat loads (computers, lights, people). A 50,000 sq ft office needs 80–125 tons. Data centers are extreme: they need 1 ton per 200–300 sq ft because of server heat. A single rack of GPU servers can require 5–10 tons of cooling alone. The Trump Tower in New York has about 2,600 tons of installed cooling capacity.
Why do Middle Eastern cities need district cooling plants the size of power stations?
When outdoor temperatures exceed 45°C for months, every building runs AC at maximum capacity simultaneously — there is no "shoulder season." Dubai alone has over 1.5 million tons of district cooling capacity. These plants chill water at a central facility and pipe it underground to hundreds of buildings, achieving 40–50% better efficiency than individual rooftop units. The Pearl-Qatar plant in Doha runs 130,000 tons — cooling an entire artificial island. Without district cooling, the electrical grid in Gulf states would need to be 30–40% larger just to handle dispersed AC compressors.
What is the largest air conditioning system in the world in tons?
The district cooling plant at The Pearl-Qatar in Doha has about 130,000 tons of refrigeration capacity — enough to cool a small city in one of the world's hottest climates. Dubai's district cooling network exceeds 1.5 million tons total across multiple plants. For a single building, the Venetian Macao resort has roughly 16,000 tons. These megascale systems use chilled water loops distributing cooling across kilometers of underground pipes.
How many tons of refrigeration does a grocery store need?
A typical 40,000 sq ft supermarket needs 80–150 tons: roughly 40–60 tons for the sales floor AC, and another 40–90 tons for refrigerated cases, walk-in coolers, and freezers. The frozen food aisle alone can require 20–30 tons. Open-top refrigerated cases are notoriously wasteful — they dump cold air into the store, which the AC must then remove. Modern stores with glass-doored cases can cut refrigeration load by 30–40%.
Calories (th)/hour – Frequently Asked Questions
How are calories per hour used in ecological energy budgets?
Ecologists track energy flow through ecosystems: sunlight → plants → herbivores → predators. Each link is quantified in cal/h or kcal/h per square meter. A temperate forest floor receives roughly 500,000 cal/h/m² of sunlight; plants capture 1–2% as biomass. A field mouse consumes about 3,000–5,000 cal/h in food energy. Expressing everything in cal/h makes the efficiency losses at each trophic level immediately visible.
What is the difference between cal/h and kcal/h in practice?
A factor of 1,000. Since 1 kcal = 1,000 cal, 5,000 cal/h = 5 kcal/h. Nutrition and exercise science almost always use kcal/h (the "food Calorie" per hour), while laboratory calorimetry might use cal/h for precision measurements. The confusion between small and large calories has caused countless errors in student lab reports. When reading older literature, always check whether "calorie" means the thermochemical calorie (4.184 J) or the kilocalorie (4,184 J).
How many cal/h does a hibernating bear produce?
A hibernating black bear's metabolic rate drops to about 15,000–25,000 cal/h (roughly 17–29 W) — only about 25% of its active resting rate. Its body temperature drops just 5–6°C (unlike true hibernators that cool near freezing), and heart rate falls from 40–50 to 8–10 beats per minute. The bear burns about 4,000 kcal/day entirely from fat reserves, losing 15–30% of body weight over 5–7 months of hibernation.
How does cal/h relate to the old European thermal unit system?
In pre-SI European engineering, heating systems were often rated in kcal/h. A standard European radiator might be rated at 1,000 kcal/h (1,163 W). German and Italian heating catalogs from the mid-20th century used kcal/h exclusively. The conversion to watts was mandated by EU directives in the 1970s-80s, but older buildings across Europe still have heating system documentation in kcal/h. Italian plumbers still sometimes think in "frigorie" (negative kcal/h) for cooling.
What very slow processes are best described in cal/h?
Radioactive decay heat in spent nuclear fuel rods: a few hundred cal/h per rod years after removal. Slow corrosion reactions in sealed containers. Heat generation in composting piles (2,000–10,000 cal/h per kg of compost). Bacterial metabolism in soil samples. The continuous heat loss through a single-pane window: about 200,000 cal/h per square meter in winter. These are processes too slow for per-second measurement but too fast to ignore over hours.