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Quartz-Halogen Lamp W + 2I WI2 Tungsten Atoms Evaporate off filament

Published byDelilah Dixon Modified over 6 years ago

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Presentation on theme: "Quartz-Halogen Lamp W + 2I WI2 Tungsten Atoms Evaporate off filament"— Presentation transcript:

1 Quartz-Halogen Lamp W + 2I WI2 Tungsten Atoms Evaporate off filament
Tungsten & Halogen atoms combine Molecule Dissociates Tungsten Redeposited W + 2I WI2 In tungsten-halogen lamps, the effects described above are reduced or retarded by the regenerative action of the halogen cycle, which operates by virtue of the temperature gradient between the filament and the bulb. As a general concept: a. The filament, fill gas, and bulb are initially at some low temperature (e.g., ambient, for a cold start). b. When power is applied, the filament rapidly rises to its operating temperature (2800K to 3400K depending on application), heating the fill gas and the bulb. The bulb wall rises to an operating temperature of 400°C to 1000°C, and the fill gas rises to temperatures ranging from that at the filament to that at the bulb wall. This temperature gradient causes convection currents in the fill gas. c. As the bulb wall rises above temperatures in the range 200°C to 250°C (depending on nature and amount of halogen vapor), the halogen cycle begins to operate. Tungsten molecules evaporated from the filament combine with the halogen vapor to form a tungsten halide (e.g., tungsten iodide or tungsten bromide). The halide does not condense on the hot wall of the bulb but is circulated by convection back to the region of the filament. d. At the filament where the temperature exceeds 2500°C, the tungsten halide dissociates, the tungsten is deposited on the filament, and e. The free halogen vapor is recirculated to continue the regenerative cycle. This cycle thus keeps the bulb wall clean by preventing deposition of tungsten and results in much higher lumen maintenance over the life of the lamp than that obtained for conventional tungsten-filament lamps. Tungsten has a high melting point!! Halogen lamps use 7 to 8 atmospheres of pressure inside the envelope, while regular tungsten-filament lamps use 1 atm. Uses Krypton At the highest practical temperatures, radiant flux is at 20% in the visible, .3% in the uv, 79.7% IR

2 Incandescent Bulb Tungsten Filament No cycling of tungsten Double coil
The double spiral allows manufacturers to put a long length of wire in a small space Operates at 1 atm inside

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