Call us: +(91) - 044 - 26252112 E-Mail us: shakunthsales@gmail.com
info@shakunth.in

Ozone System

Ozone System

Ozone /ˈoʊzoʊn or trioxygen, is an inorganic molecule with the chemical formula O3. It is a pale blue gas with a distinctively pungent smell. It is an allotrope ofoxygen that is much less stable than the diatomic allotrope O2, breaking down in the lower atmosphere to normal dioxygen. Ozone is formed from dioxygen by the action of ultraviolet light and also atmospheric electrical discharges, and is present in low concentrations throughout the Earth's atmosphere(stratosphere). In total, ozone makes up only 0.6 ppm of the atmosphere.

Ozone's odour is sharp, reminiscent of chlorine, and detectable by many people at concentrations of as little as 10 ppb in air. Ozone's O3 structure was determined in 1865. The molecule was later proven to have a bent structure and to be diamagnetic. In standard conditions, ozone is a pale blue gas that condenses at progressively cryogenic temperatures to a dark blue liquid and finally a violet-black solid. Ozone's instability with regard to more common dioxygen is such that both concentrated gas and liquid ozone may decompose explosively at elevated temperatures or fast warming to the boiling point. It is therefore used commercially only in low concentrations.

Ozone is a powerful oxidant (far more so than dioxygen) and has many industrial and consumer applications related to oxidation. This same high oxidising potential, however, causes ozone to damage mucous and respiratory tissues in animals, and also tissues in plants, above concentrations of about100 ppb. This makes ozone a potent respiratory hazard and pollutant near ground level. However, the ozone layer (a portion of the stratosphere with a higher concentration of ozone, from two to eight ppm) is beneficial, preventing damaging ultraviolet light from reaching the Earth's surface, to the benefit of both plants and animals

Ozone is a powerful oxidizing agent, far stronger than O2. It is also unstable at high concentrations, decaying to ordinary diatomic oxygen. It has a varying half-life length, depending upon atmospheric conditions (temperature, humidity, and air movement). In a sealed chamber with a fan that moves the gas, ozone has a half-life of approximately a day at room temperature. Some unverified claims imply that ozone can have a half life as short as a half an hour under atmospheric conditions.

This reaction proceeds more rapidly with increasing temperature and increased pressure. Deflagration of ozone can be triggered by a spark, and can occur in ozone concentrations of 10 wt% or higher.

SAP provide tailor made design, fabricate and erect Ozone system based on the water quality, quantity,% recovery and as per client needs.

Advantages of our systems

low operating cost

No chemical consumption

compact and noise-less

Easy & effective operations

monitoring of systems parameters

Features of our systems

Air Cooled Ozone Cells

Built in Air Compressor

Compact in Size and Weight

High Frequency CD Technology

High Pressure Reaction Chamber

Short Circuit Protection

Shack proof enclosure SMC (Sheet Metal Composite) Panel

Download Catlog 1 for Ozone System

Specifications

Model Max Os
grams/ hour
Max Reactor
Pressure  Psi
Air/02 Flow
LPM
03 Out Size Enclosure
Material
Weight
KG
Power
Consumption
Supply
Voltage
Dimensions
SAP 2-4

4

25

5- 10

1/4"

SMC

a

180 Waits 220 Volts 420x270x210 mm
SAP 5-8

8

25

10 - 20

1/4"

SMC

10

240 Watts 220 Volts 420x270x270 mm
SAP 9-16

16

25

5 LPM Oz

1/4"

SMC

10

240 Watts 220 Volts 420x270x210 mm
SAP 17-32

32

25

10 LPM 02

1/4"

SMC

18

320 Watts 220 Volts 600x420x210 mm
SAP 33-64

64

25

20 LPM 02

1/4"

SMC

38

600 Watts 220 Volts 600x420x270 mm
,