R
Ramacchandran
Guest
Dear Sirs
here is an experiment conduted by A pharma company which proves my theory that light rays can act as supportive theory in curing diseases!
Please refANDERSON-NEGELE - Turbidity - (Temperature, Level, Pressure, Flow, Conductivity & Turbidity)
This is Google's cache of ANDERSON-NEGELE - Turbidity - (Temperature, Level, Pressure, Flow, Conductivity & Turbidity). It is a snapshot of the page as it appeared on 23 May 2013 08:17:39 GMT. The current page could have changed in the meantime. Learn more
Tip: To quickly find your search term on this page, press Ctrl+F or ⌘-F (Mac) and use the find bar.
Text-only version
ANDERSON-NEGELE global | Home | Sitemap | Imprint | Disclaimer
ANDERSON-NEGELE global
Anderson-Negele » Welcome » Products » Turbidity
[h=2]TURBIDITY MEASUREMENT - RELIABLE AND COST-EFFECTIVE[/h]Turbidity refers to an optical phenomenon caused by the scattering of light on undissolved particles in a fluid. When a ray of light impinges on a particle, a portion of the light is reflected and a portion is absorbed. Depending on the shape and the surface properties of the particle, light of varying intensity is scattered in all directions.
In process engineering, turbidity measurement has become indispensable for the automation of process flows. By offering a variety of different measurement techniques, Anderson-Negele has a solution for virtually every application.
[TABLE="class: tableCommon, width: 594"]
[TR]
[TD][h=2]BACKSCATTER METHOD[/h]Turbidity measurement with ITM-3 in pipes of DN25 and larger, for media with a minimum turbidity of 2000 NTU.
Application: Phase separation of products (e.g., whey - cream - milk), CIP return flow (monitoring of pre-rinse water for product remnants), "yeast harvest" in breweries.
Measuring principle: A diode radiates infrared light into the medium. The particles in the medium reflect back the radiated light, which is detected by the receiver diode. The electronics calculate the turbidity of the medium based on the strength of the received signal.
[/TD]
[TD][/TD]
[/TR]
[TR]
[TD][h=2]4-BEAM ALTERNATING LIGHT METHOD[/h]Turbidity measurement with ITM-4 in pipes of DN40 and larger, for media with very low turbidity up to a max. of 5000 NTU or 1250 EBC.
Application: Filtrate monitoring, phase separation of slightly turbid media, quality control.
Measuring principle: Two transmitters and receivers measure transmitted light and 90° scattered light; the turbidity is then calculated by forming a quotient that takes into consideration the value calculated last, a method described in DIN/EN 27027 (ISO 7027).
[/TD]
[TD][/TD]
[/TR]
[TR]
[TD][h=2]TRANSMITTED LIGHT METHOD[/h]Turbidity measurement with ITM in pipes of DN40 and larger, for media with medium to high turbidity.
Application: Quality control, phase separation of products, CIP return flow.
Measuring principle: A diode radiates infrared light toward a receiver on the opposite side. The receiver current is kept constant by adjusting the radiation power. The higher the turbidity, the greater the radiation power.
[/TD]
[TD][/TD]
[/TR]
[/TABLE]
more ...
more ...
more ...
Negele Messtechnik GmbH
Phone: +49 (0) 83 33 . 92 04 - 0
Fax: +49 (0) 83 33 . 92 04 - 49
[email protected]
Regards
Ramachandran
here is an experiment conduted by A pharma company which proves my theory that light rays can act as supportive theory in curing diseases!
Please refANDERSON-NEGELE - Turbidity - (Temperature, Level, Pressure, Flow, Conductivity & Turbidity)
This is Google's cache of ANDERSON-NEGELE - Turbidity - (Temperature, Level, Pressure, Flow, Conductivity & Turbidity). It is a snapshot of the page as it appeared on 23 May 2013 08:17:39 GMT. The current page could have changed in the meantime. Learn more
Tip: To quickly find your search term on this page, press Ctrl+F or ⌘-F (Mac) and use the find bar.
Text-only version
- [h=1]Products[/h]
- [h=1]Contact & Support[/h]
- [h=1]News & Press[/h]
- [h=1]About us[/h]
ANDERSON-NEGELE global | Home | Sitemap | Imprint | Disclaimer
ANDERSON-NEGELE global
Anderson-Negele » Welcome » Products » Turbidity
- [h=2]Process connections[/h]
- [h=2]Temperature[/h]
- [h=2]Level[/h]
- [h=2]Point level[/h]
- [h=2]Pressure[/h]
- [h=2]Flow[/h]
- [h=2]Conductivity[/h]
- [h=2]Turbidity[/h]
- Dairy, Food & Beverage
- [h=2]Backscatter Light[/h]
- [h=2]4-Beam Alternating Light[/h]
- [h=2]Transmitted Light[/h]
- [h=2]Controls[/h]
- [h=2]Product archive[/h]
[h=2]TURBIDITY MEASUREMENT - RELIABLE AND COST-EFFECTIVE[/h]Turbidity refers to an optical phenomenon caused by the scattering of light on undissolved particles in a fluid. When a ray of light impinges on a particle, a portion of the light is reflected and a portion is absorbed. Depending on the shape and the surface properties of the particle, light of varying intensity is scattered in all directions.
In process engineering, turbidity measurement has become indispensable for the automation of process flows. By offering a variety of different measurement techniques, Anderson-Negele has a solution for virtually every application.
[TABLE="class: tableCommon, width: 594"]
[TR]
[TD][h=2]BACKSCATTER METHOD[/h]Turbidity measurement with ITM-3 in pipes of DN25 and larger, for media with a minimum turbidity of 2000 NTU.
Application: Phase separation of products (e.g., whey - cream - milk), CIP return flow (monitoring of pre-rinse water for product remnants), "yeast harvest" in breweries.
Measuring principle: A diode radiates infrared light into the medium. The particles in the medium reflect back the radiated light, which is detected by the receiver diode. The electronics calculate the turbidity of the medium based on the strength of the received signal.
[/TD]
[TD][/TD]
[/TR]
[TR]
[TD][h=2]4-BEAM ALTERNATING LIGHT METHOD[/h]Turbidity measurement with ITM-4 in pipes of DN40 and larger, for media with very low turbidity up to a max. of 5000 NTU or 1250 EBC.
Application: Filtrate monitoring, phase separation of slightly turbid media, quality control.
Measuring principle: Two transmitters and receivers measure transmitted light and 90° scattered light; the turbidity is then calculated by forming a quotient that takes into consideration the value calculated last, a method described in DIN/EN 27027 (ISO 7027).
[/TD]
[TD][/TD]
[/TR]
[TR]
[TD][h=2]TRANSMITTED LIGHT METHOD[/h]Turbidity measurement with ITM in pipes of DN40 and larger, for media with medium to high turbidity.
Application: Quality control, phase separation of products, CIP return flow.
Measuring principle: A diode radiates infrared light toward a receiver on the opposite side. The receiver current is kept constant by adjusting the radiation power. The higher the turbidity, the greater the radiation power.
[/TD]
[TD][/TD]
[/TR]
[/TABLE]
 |
| 2013, Sept. 16.-20. Munich |
more ...
 |
| Intrinsically safe measuring equipment |
Negele Messtechnik GmbH
Phone: +49 (0) 83 33 . 92 04 - 0
Fax: +49 (0) 83 33 . 92 04 - 49
[email protected]
design & copyright by cmd-crossmedia.com
Regards
Ramachandran
