heating systems

hotwater heating system

A hot-water heating system produces thermal energy to heat water and then pumps the hot water throughout the building in a system of pipes and radiators. You can see a simple diagram of this type of heating system in the Figure 1.1. Water is heated in a boiler that burns a fuel such as natural gas or heating oil. The boiler converts the chemical energy stored in the fuel to thermal energy. The heated water is pumped from the boiler through pipes and radiators throughout the house. There is usually a radiator in each room. The radiators get warm when the hot water flows through them. The warm radiators radiate thermal energy to the air around them. The warm air then circulates throughout the rooms in convection currents. The hot water cools as it flows through the system and transfers its thermal energy. When it finally returns to the boiler, it is heated again and the cycle repeats. Q: Look closely at the hot-water heating system in the Figure 1.1. The radiator is a coiled pipe through which hot water flows. What happens to the water as it flows through the radiator? Why is each radiator connected to two pipes? Why cant water flow directly from one radiator to another through a single pipe? A: The radiator is where most of the energy transfer occurs. Water passes through such a great length of pipe in the radiator that it transfers a lot of thermal energy to the radiator. As the water transfers thermal energy, it gets cooler. The cool water flows into a return pipe rather than going directly to another radiator because the cool water no longer has enough thermal energy to heat a room.

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warmair heating system

A warm-air heating system uses thermal energy to heat air and then forces the warm air through a system of ducts and registers. You can see a this type of heating system in the Figure 1.2. The air is heated in a furnace that burns fuel such as natural gas, propane, or heating oil. After the air gets warm, a fan blows it through the ducts and out through the registers that are located in each room. Warm air blowing out of a register moves across the room, pushing cold air out of the way. The cold air enters a return register across the room and returns to the furnace with the help of another fan. In the furnace, the cold air is heated, and the cycle repeats. Q: How does a home heating system know when to run and when to stop running? A: A home heating system is turned on or off by a thermostat.

how a thermostat works

A thermostat, like the one seen in the Figure 1.3, is an important part of any home heating system. It is like the brain of the entire system. It constantly monitors the temperature in the home and tells the boiler or furnace when to turn on or off. The thermostat is set at a selected temperature, say 71 F. When the temperature in the home starts to fall below this point, the thermostat triggers the boiler or furnace to start running. When the temperature starts to rise above this point, the thermostat triggers the boiler or furnace to stop running. In this way, the thermostat maintains the homes temperature at the set point.

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heating the home

Modern home heating systems keep us comfortable in cold weather. We may even depend on them for our survival. But we often take them for granted. Two common types of home heating systems are hot-water and warm-air heating systems. Both types are described below. Thermal energy is the total energy of moving particles of matter. The transfer of thermal energy is called heat. Therefore, a heating system is a system for the transfer of thermal energy. Regardless of the type of heating system in a home, the basic function is the same: to produce thermal energy and transfer it to air throughout the house.

instructional diagrams

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questions

a hot-water heating system includes

a) ducts.

-->  b) pipes.

c) registers.

d) two of the above

in a hot-water heating system, hot water transfers thermal energy to radiators by thermal radiation.

a. true

-->  b. false

in both hot-water and warm-air heating systems, thermal energy is transferred through the air in each room by conduction.

a. true

-->  b. false

a warm-air heating system includes

a) ducts.

b) pipes.

c) registers.

-->  d) two of the above

diagram questions

No diagram questions associated with this lesson