Experimental study of an innovative wet scrubber concept in regards to particle filtration and pressure loss

The risen awareness of improved indoor air quality has resulted in an increased energy demand for HVAC systems due to higher air exchange rates and the additional operation of air purifiers. Therefore, the need for energy-efficient methods to improve indoor air quality has grown. In this experimental study, we develop an innovative wet scrubber concept to remove solid particles from the airflow. In contrast to conventional wet scrubbers, this concept uses a perforated plate and the hydrostatic pressure to feed water droplets into the air stream.

Microorganism contaminants removal in a liquid desiccant dehumidification system

The main focus of this research is to estimate the ability of a liquid desiccant (LD) system operation to remove microorganism particles. The dehumidification performance of the LD systems generated by using a lithium chloride (LiCl) solution as the liquid desiccant material. To verify the removal performance of microorganism particles, the experimental method was divided into cases where the process air passed or bypassed the LD unit.

Removal of Microbe-Carrying Particles by High Efficiency Air Filters in Cleanrooms

The removal efficiency of high efficiency air filters against microbe-carrying particles (MCPs) in the air supply of occupied rooms, such as cleanrooms, was determined. Knowing the size distribution of MCPs in the air to be filtered, and the removal efficiency of a filter against individual particle diameters, the overall removal efficiency was ascertained.

REMOVAL EFFICIENCY OF PARTICLES BY COMBINING NEGATIVE IONS WITH MECHANICAL FILTERS

The purpose of this work is to combine negative air ions and mechanical filters to remove indoorsuspended particulates.

EXPERIMENTAL STUDY ON THE CONTAMINANT REMOVAL EFFICIENCY OF AN AIR CLEANER USING THE ADSORPTION/DESORPTION EFFECT

The objective of this paper is to present the contaminant removal efficiency of a prototype air cleanerusing the adsorption/desorption effect and to investigate the practicality of this air cleaner. Toluene andformaldehyde were used as pollutant sources and were emitted at a constant rate in a test chamber.Effects of the number of sorption units, the operational time and mode on the contaminant removalperformance were examined. Sorption materials that were evaluated were a porous material, zeolite,pumice stone, and hydro-corn.