The development of a viable strategy for limiting coke deposition involves combining synergistic approaches for suppressing deposit buildup and reducing its impact on performance. Candidate approaches, including selection of favorable operating conditions (viz., pressure, temperature, heat flux, residence time, and passage size) and coke-tolerant heat exchanger designs, were investigated to evaluate their effectiveness and provide a basis for combining them into a single design philosophy. These approaches were evaluated through testing of current jet fuels in single-tubes and segments of heat exchange, configurations at temperatures up to 1000 deg F; pressures up to 1200 psi and liquid hourly space velocities up to 40,000/h. A key result of this work is the ranking of the importance of heat exchanger operating conditions on carbon deposition, with fuel temperature and those parameters that control species diffusion having the most pronounced impact. Residence time and pressure are of lesser importance. Alternative coke-tolerant heat exchanger designs featuring interchannel communication were evaluated and ranked, with several of these concepts demonstrating improvement over continuous passages.
Deposit formation and mitigation in aircraft fuels
Transactions of the ASME, Journal of Engineering for Gas Turbines and Power ; 123 , 4 ; 741-746
2001
6 Seiten, 11 Bilder, 2 Tabellen, 8 Quellen
Article (Journal)
English
Deposit Formation and Mitigation in Aircraft Fuels
Online Contents | 2001
|SAE Technical Papers | 1938
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