REA: Resource Exergy Analysis - A basic guidline for application

This publication provides a basic guideline to the application of Resource Exergy Analysis (REA). REA is a proven application of exergy analysis to the field of technology comparison. REA aims to help decision makers to obtain an indicator in addition to GHG emissions, that is grounded in science. Resource exergy consumption can replace the less comprehensive primary energy consumption as an indictor and reduce the risk of suboptimal decisions. Evaluating energy systems using REA is key to ensure that climate targets are reached in time.

REA: Resource Exergy Analysis - A basic guidline for application

This publication provides a basic guideline to the application of Resource Exergy Analysis (REA). REA is an application of exergy analysis to the field of technology comparison. REA aims to help decision makers to obtain an indicator in addition to GHG emissions, that is grounded in science. Resource exergy consumption can replace the less comprehensive primary energy consumption as an indictor and reduce the risk of suboptimal decisions.

Rapid Airfield Damage Recovery Next Generation Backfill Technologies Comparison Experiment : Technology Comparison Experiment

The Rapid Airfield Damage Recovery (RADR) Next Generation Backfill Technology Comparison Experiment was conducted in July 2017 at the East Campus of the U.S. Army Engineer Research and Development Center (ERDC), located in Vicksburg, MS. The experiment evaluated three different crater backfill technologies to compare their performance and develop a technology trade-off a nalysis. The RADR next generation backfill technologies were compared to the current RADR standard backfill method of flowable fill. Results from this experiment provided useful information on technology rankings and trade-offs. This effort resulted in successful crater backfill solutions that were recommended for further end user evaluation.

Treatment of rhodamine B with cavitation technology: comparison of hydrodynamic cavitation with ultrasonic cavitation

This paper presents the use of hydrodynamic cavitation and ultrasonic cavitation technologies for treating rhodamine B (RhB) in simulated wastewater.