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Published byStephen Carpenter Modified over 9 years ago
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Design of Recuperative Heat Exchanger Presented by -- Jinying Zhu
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Calculation result: The diameter of channel will be about 120 micron after the material is fired. Duct number: 90×116 dT (K) T cold side out (K) T hot side out (K) effectiveness (%) 6.12 43.12 306.88 97.70
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Calculation result:
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Manufacture in 4 phases: 50 layer middle portion 50 layer middle portion + one header middle portion (minimum 75 layers) + two headers complete full-sized recuperator
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Corresponding test: 1. Inspection of channels’ area (two options) a.using light source (equipment will be set up in the lab); b.using pin gauge 2. Microscopic inspection of channel surface(microscope is at hand) 3. Low temperature test (Nitrogen temperature) and large temperature gradient test of LTCC material (Nitrogen box is at hand) Phase 1 :
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Corresponding test: Schematic of step 1 (Option a):
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Corresponding test: Schematic of step 3: large temperature gradient test
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Corresponding test: Phase 2: uniformity of flow: input alkaline gas or acidic gas, stick the test paper on the recuperator, and observe the color difference of spots on the paper. Slight difference means the relatively uniform flow.
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Corresponding test: Phase 3: leakage Phase 4: Whole performance test Input two different inert gases from two inlets, and test the outlet gas components.
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Test kit for the test phase 3 and 4:
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