Condensation of gas will reject out heat, running cold water through condenser absorbing heat and help the condensation process.
Water vapors are cooled and condensed in the condenser.
Water vapor condenses in a cold condenser tube.
The three water circuits in the nuclear plant are the primary coolant, the secondary or main steam circuit, and the tertiary or condenser cooling system. Below is link to a fairly clear diagram that has all three water circuits in it. Look at the diagram as we give you the scoop one loop at a time. Primary coolant is circulated (forced by the main coolant pumps) through the reactor core to pick up heat. This hot primary coolant is circulated through that steam generator where it boils secondary water to create steam. The primary coolant leaves the steam generator cooler than when it went in (but still hot!), and then returns to the reactor's pressure vessel (where the reactor core is housed) to be reheated. It's a closed loop. In the secondary or main steam system, the feedwater turns to steam in the steam generator. It then leaves that steam generator and goes through the main steam header to the big steam turbines that drive the electric generators. In the main condenser below the steam turbine, the steam condenses back into water as the condenser cooling water circulates through the condenser. The water that used to be steam is now feedwater, and it's pumped back into the steam generator to begin the steam cycle again. The condenser cooling water that cooled the exhaust steam to convert it back to water is pumped out into a heat exchanger (evaporative cooling tower). Thus cooled there, the main condenser cooling water is pumped back into the main condenser to remove heat from the exhaust steam to convert it back to water. This completes the main condenser cooling cycle. A link below will lead you to a fairly clear diagram with the three cooling circuits in it. With a bit of jumping between the explanation and the diagram, you should be able to see everything clearly.
Capillary action. When water is in a narrow area or in a porous substance, surface tension pulls the water from areas of high density to areas of low density. Imagine putting a dry sponge in a puddle of water. Like that.
The steam when cooled changes back to liquid water
so as to cool the vapor as the water stays little time till the condenser is filled with water
Water cooled chiller work on principal that water is circulated in condenser for removal of heat from the system and refrigerant gas is thus condensed in condensor.
So that the maximum cooling of the distillate is effected. By sending the cold coolant (usually water) in at the coolest part of the condenser it also reduces thermal shock.
The inside of the air conditioner condenser can be cleaned by removing the hoses and running water through the condenser. Run water through the condenser until the water exiting the condenser is clear.
Water
Yes. A procedure known as distillation would need to be done, i.e., take the solution of water and salt and place in a conical flask attached to a Liebig's Condenser and at the end of the condenser, a beaker. The condenser must be circulated with cold water from below and the hot water removed from top. Heat the solution upto 100 C, and the water will collect in the beaker as 'distillate' while the salt will stick to the sides of the flask. (for more details about distillation, refer the Internet) by, Shawkat
Water vapors are cooled and condensed in the condenser.
Water vapor condenses in a cold condenser tube.
There is only one condenser. That would be an air condenser.
what two places heat be deposited in a water cooled condenser
When a system with a water-cooled condenser cycles off, the water regulating valve should
When a system with a water-cooled condenser cycles off, the water regulating valve should