-
-
Available Formats
- Options
- Availability
- Priced From ( in USD )
-
Available Formats
-
- Immediate download
- $16.00
- Add to Cart
Customers Who Bought This Also Bought
-
OR-05-08-3 - The Effects of Supply Air Systems on Kitchen...
Priced From $16.00 -
OR-05-06-3 - Adverse Effects of Moderate Levels of Low Fr...
Priced From $16.00 -
OR-05-04-1 - Laboratory Infrared Thermography Technique f...
Priced From $16.00 -
OR-05-04-2 - Methods for Calculating the Effective Solar-...
Priced From $16.00
About This Item
Full Description
The goal of the Cooling, Heating, and Power (CHP) Program established in 2000 by the US Department of Energy (DOE) is to provide research, development, and testing (both laboratory and field) and to accelerate implementation of distributed electric generation (DG) with thermally activated technologies (TAT). The objective is to provide DG with waste heat recovery, i.e., combination of DG and waste heat recovery utilization to drive various TAT units (heat recovery, desiccant, absorption chiller units, etc.) and increase overall fuel efficiency of the technology. Dynamic tests of the CHP system, which were performed at the CHP Integration Laboratory of the Oak Ridge National Laboratory (ORNL), are presented. The CHP system at the lab includes: a 30-kW microturbine generator, an air-to-water heat recovery unit, an indirect-fired single-effect 10-ton (35-kW) absorption chiller, and indirectand direct-fired desiccant dehumidification units. The dynamic system response of the CHP system was tested during both cold-start-up and power-dispatch (changing electric/ thermal demand) modes. The test results provide valuable information for both understanding CHP performance as well as for use to develop better control tools for CHP equipment.
Units: Dual