Development of a Hybrid Cooling, Heating, and Power System for Distributed Energy Applications
Abstract
A unique hybrid cooling, heating, and power (HCHP) concept has been recently developed as an alternative to environmental control units. It combines a small-scale organic Rankine cycle (ORC) with a vapor compression cycle. The unique drive-train design flexibly and efficiently converts engine waste heat into useful energy in the form of cooling, heating, and power depending upon the energy needs. Compared to a standard military environmental control unit which puts an electric load on a diesel generator, the HCHP system uses engine exhaust heat as the primary energy input. Utilizing the exhaust heat can potentially provide 27% reduction on fuel consumption when operating in the cooling mode. When cooling is not needed, it is able to provide power and/or heating output using engine waste heat—a significant advantage over other heat activated cooling technologies. The prototype unit based on the HCHP design has been developed to demonstrate the concept. It leveraged the microchannel heat exchanger and scroll expander technologies to achieve high-performance, small-size, and low-cost design in order to meet the growing distributed energy applications.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Nov 04, 2020
- Source ID
- 10.1115/1.4048681
Entities
People
- Chuankai Song
- Hailei Wang
- Sean Kissick
Organizations
- Communications-Electronics Research, Development and Engineering Center
- Oregon State University
- Utah State University