Temperatures in a central heating system

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A central heating system traditionally operates at 80/60 degrees but can function at 60/40 degrees with similar energy transfer due to the consistent temperature drop. To maintain the same heating effect at the lower temperatures, an increased flow of water is necessary, though the exact amount needed is unclear. The risk of thermal shock when returning water to the boiler at 40 degrees suggests the use of a secondary loop. The heat transfer rate from radiators to the room is influenced by the temperature difference, indicating that more water circulation is required at lower temperatures. Overall, while the delta-T remains constant, the method of heat dissipation and system design may vary, impacting efficiency.
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A central heating system has been thought to run with temperatures 80/60, and so the flow of water through the system has been calculated accordingly. Now it turnes out that it will run with 60/40 instead. In order to have the system deliver the same effect, I assume more water will need to flow through the pipes. But how do I find out how much?
 
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Minor difference. Since there is a 20 deg Temperature drop in both systems, and the ranges are not that different, the energy transfer is similar, with the only difference being a slight drop in the specific heat of water, usually considered negligible (a value of 1) at those temperatures.

However I would be careful returning water to the boiler at 40 deg C, there is a risk of thermal shock. You should use some sort of secondary loop at that low return temperature.
 
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I would have thought the major difference was the heat to be supplied into the room. With the radiators at 60deg the dT to the room will be 2/3 what it would be at 80deg and so to give the same heating effect you are going to have to push more water around.
 
The dT between the radiators and the room temperature (say 20deg) is either 60 or 40.
The rate of heat transfer from the radiator to the room is proprtional to dT.
 
That's called approach temperature and though it is true that with a lower approach temperature you will get less heat transfer, he didn't say how the heat would be dissipated or why the temp would be lower, only that the delta-T is still 20. Ie, maybe they are fan coil units and in addition to lowering the boiler temp, they raised the airflow. We just don't know.
 
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