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Kæling Skip- og bílavéla

Kæling Skip- og bílavéla. Kafli 3 ethylene glycol = (C2H6O2). Kælikerfi í bíl. Viftuspaði. Vélablokk. Note that the walls of the cylinder are quite thin, and that the engine block is mostly hollow. Hitaleiðni.

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Kæling Skip- og bílavéla

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  1. Kæling Skip- og bílavéla Kafli 3 ethylene glycol = (C2H6O2) Ívar Valbergsson

  2. Kælikerfi í bíl Ívar Valbergsson

  3. Viftuspaði Ívar Valbergsson

  4. Vélablokk • Note that the walls of the cylinder are quite thin, and that the engine block is mostly hollow. Ívar Valbergsson

  5. Hitaleiðni • Some engines do this by coating the inside of the top of the cylinder head with a thin layer of ceramic. Ceramic is a poor conductor of heat, so less heat is conducted through to the metal and more passes out of the exhaust. Ívar Valbergsson

  6. Vatnskassi • Radiators usually have a tank on each side, and inside the tank is a transmission cooler. In the picture above, you can see the inlet and outlet where the oil from the transmission enters the cooler. The transmission cooler is like a radiator within a radiator, except instead of exchanging heat with the air, the oil exchanges heat with the coolant in the radiator. Ívar Valbergsson

  7. Miðstöðva varmaskiptir Ívar Valbergsson

  8. Vatnslás Ívar Valbergsson

  9. Cutaway of radiator cap and reservoir • The boiling point of water increases when the water is placed under pressure. • When the fluid in the cooling system heats up, it expands, causing the pressure to build up. The cap is the only place where this pressure can escape, so the setting of the spring on the cap determines the maximum pressure in the cooling system. When the pressure reaches 15 psi, the pressure pushes the valve open, allowing coolant to escape from the cooling system. This coolant flows through the overflow tube into the bottom of the overflow tank. This arrangement keeps air out of the system. When the radiator cools back down, a vacuum is created in the cooling system that pulls open another spring loaded valve, sucking water back in from the bottom of the overflow tank to replace the water that was expelled. Ívar Valbergsson

  10. Ívar Valbergsson

  11. Ívar Valbergsson

  12. Stjórnun streymis í kerfinu • Með því að breyta þrýstingi kerfinu er hægt að breyta streyminu um kerfið þó aðeins að vissu marki. • Á við mynd 28. Stillt með 7 Ívar Valbergsson

  13. Ívar Valbergsson

  14. Ívar Valbergsson

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