A Mini-channel Heat Exchanger System for Heating, Boiling, and Superheating Water by Radiant Combustion
Abstract
A mini-channel steam generator was developed for a fuel reformer to convert jet to a hydrogen-rich stream for a 10 kW fuel cell. Exhaust gases produced saturated liquid in its first section. The second section surrounded a radiant burner. The system heated 1.2 to 2.6 gm/s of water to more than 650 deg C at exit pressures from 106 to 240 kPa, as required. The mini-channel system operated across three regimes: liquid heating, boiling, and superheating. At certain locations, the number of the parallel channels was increased changed to restrain the total pressure drop. The channel hydraulic diameter was 0.14 Cm. The Reynolds number for the water ranged from 620 to 1,260 in the boiling section and from 1,260 to 3,140 in the superheating section, based on averaged fluid properties. The water absorbed heat fluxes ranging from 0.3 to 1.2 W/cm2 in the single-phase regions and 4.7 to 9.8 W/cm2 in the boiling region, based on the wetted wall area. The absorbed heat flux increased as coolant mass flux or Reynolds number increased.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 15, 2004
- Accession Number
- ADA425961
Entities
People
- Aly H. Shaaban
- Mikel L. Sawyer
- Reza Salavani
Organizations
- Air Force Research Laboratory