GSBmbH

Saganer Straße 26
90475 Nürnberg

+49 (0)911 97911-0
info@gsbmbh.com

LH-SYSTEM incoming air

The LH-SYSTEM for treatment of incoming air is constructed in modules and can therefore be adjusted in order to fit the individual features of multiple types of RLT-systems.

lh mag 1000

LH - MAG 1000

size: 75 x 50 x 26 mm (LxBxH)
weight: ca. 0,2 kg
air performance*: bis zu 1.000 m³/h
ionisation performance: > 5.000.000 Ionen/cm³ (direkt an der Entladung)
electrical power: 1 W
power consumption: 1,5 mA
electrical connection: 230 V / 50 Hz

 

lh lkl 1000

LH - LKL 1000

size: 185 x 105 x 66 mm (LxBxH)
weight: ca. 1,1 kg
air performance*: bis zu 1.000 m³/h
ionisation performance: > 5.000.000 Ionen/cm³ (direkt an der Entladung)
electrical power: 30 mg/h
el. Leistung: 9 W
power consumption: 40 mA
electrical connection: 230 V / 50 Hz

 

lh abb

LH - ABB

size: 335 x 185 x 96 mm (LxBxH)
weight: ca. 2,8 kg
air performance*: bis zu 6.000 m³/h
ionisation performance: > 5.000.000 Ionen/cm³ (direkt an der Entladung)
electrical power: 180 mg/h
el. Leistung: 18 - 54 W (je nach Konfektionierung)
power consumption: 80 - 230 mA
electrical connection: 230 V / 50 Hz

the amount of air to be treated depends on channel assembly and conduct of air pipes

 

Functioning

Making its way inside a closed space the outside air's natural oxygen is discharged by the ventilation system and the building structure itself. This process can be imagined as grounding.

 

Bild1

 

farbscala10
active oxygen
passive oxygen

 

The LH-System makes it possible to (re)activate room air via RLT-system. Cleaning and vitalization effects directly cause the room air's quality to improve. The improved air quality allows for efficient utilization of circulating air and/or a great reduction in outside air supply. Therefore, energy expenses for heating or cooling of rooms can be lowered significantly.

 

Bild2

 

farbscala10
active oxygen
passive oxygen
Cookies make it easier for us to provide you with our services. With the usage of our services you permit us to use cookies.
More information Ok