Heat/mass flow enhancement design for a metal hydride assembly, phase 2
Abstract
The development and demonstration of a metal hydride/chemical heat pump (MHHP) is reported. In the design of the MHHP, heat transfer was considered to be the key technical study area. Therefore, the goal of this effort is improved heat transfer and reduced thermal mass in a hydride heat exchanger/containment assembly. Phase II consisted of the experimental verification of the hydride alloy design data, fabrication of the hydride heat exchanger module components, heat transfer testing of a single heat exchanger element and preliminary performance testing of the entire module. In Phase II, two hydride heat exchanger modules were constructed. Each module consistes of 14 finned copper tubes in a staggered tube bundle arrangement enclosed in a cylindrical pressure vessel. The hydride powder is stored in the annular spacing between the fins. The heat transfer media, water, flows through the finned tubes. Insulation thermally isolates the tubes and hydride materials from the high mass pressure vessel. A single metallic filter in each vessel prevents hydride migrating from one vessel to another
- Publication:
-
Final Report Southampton Univ. (England
- Pub Date:
- September 1983
- Bibcode:
- 1983shue.rept.....A
- Keywords:
-
- Heat Exchangers;
- Heat Pumps;
- Heat Transfer;
- Mass Flow;
- Metal Hydrides;
- Flow Velocity;
- Performance Prediction;
- Performance Tests;
- Pressure Vessels;
- Thermal Insulation;
- Water;
- Fluid Mechanics and Heat Transfer