Optical Analysis

Comprehensive lab and process optical analysis systems for solids, liquids, slurries, particles and gases.

1 - 33 of 33 Products
Raman probe KRFB
Endress+Hauser
Raman probe KRFB
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TDLAS gas analyzers SS2100A
Endress+Hauser
TDLAS gas analyzers SS2100A
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Raman Rxn KNCO1
Endress+Hauser
Raman Rxn KNCO1
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Raman Rxn KFOC1
Endress+Hauser
Raman Rxn KFOC1
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Raman Rxn KRCT
Endress+Hauser
Raman Rxn KRCT
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TDLAS gas analyzer J22
Endress+Hauser
TDLAS gas analyzer J22
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Raman Rxn KIO1
Endress+Hauser
Raman Rxn KIO1
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Raman Rxn KRSU1
Endress+Hauser
Raman Rxn KRSU1
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Raman Rxn KRXN5C
Endress+Hauser
Raman Rxn KRXN5C
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TDLAS gas analyzer SS2100
Endress+Hauser
TDLAS gas analyzer SS2100
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SS2100i Gas Analyzer
Endress+Hauser
SS2100i gas analyzer
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KRFC
Endress+Hauser
KRFC
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Maritime Suite IMARSUI
Endress+Hauser
Maritime Suite IMARSUI
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Raman Rxn KRXN4B
Endress+Hauser
Raman Rxn KRXN4B
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Raman Rxn KLBIO1
Endress+Hauser
Raman Rxn KLBIO1
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Raman probe KRBSL
Endress+Hauser
Raman probe KRBSL
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Raman probe KR45
Endress+Hauser
Raman probe KR45
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TDLAS gas analyzer SS500
Endress+Hauser
TDLAS gas analyzer SS500
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Raman probe KR41
Endress+Hauser
Raman probe KR41
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Raman probe KR20
Endress+Hauser
Raman probe KR20
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QF gas analyzer OXY5500
Endress+Hauser
QF gas analyzer OXY5500
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Raman Rxn KRXN2B
Endress+Hauser
Raman Rxn KRXN2B
Extended Extended
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Raman probe KR46
Endress+Hauser
Raman probe KR46
Extended Extended
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Raman probe KR40
Endress+Hauser
Raman probe KR40
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Raman probe KR30
Endress+Hauser
Raman probe KR30
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Raman Rxn KHCA1
Endress+Hauser
Raman Rxn KHCA1
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Raman probe KRCAL
Endress+Hauser
Raman probe KRCAL
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Raman Rxn-20 Probe Accessories
Endress+Hauser
Raman Rxn-20 probe accessories
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Raman probe KR10
Endress+Hauser
Raman probe KR10
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Raman Rxn KRC
Endress+Hauser
Raman Rxn KRC
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Raman probe KRBMO
Endress+Hauser
Raman probe KRBMO
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TDLAS gas analyzer JT33
Endress+Hauser
TDLAS gas analyzer JT33
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Raman probe KSC1
Endress+Hauser
Raman probe KSC1
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Optical Analysis

Optical analysis instruments use light–matter interaction to quantify composition, concentration, or impurities in real time, often without reagents or consumables. Endress+Hauser optical analysis portfolios typically include spectroscopy-based analyzers—such as Raman, near‑infrared, and laser absorption methods—implemented as in‑situ probes, extractive analyzer systems, or sample-cell solutions depending on the process.

The primary advantage is speed: optical measurements can deliver second-by-second insight that eliminates lab lag and reduces the need for grab sampling. This enables tighter control of batch endpoints, blending ratios, and impurity limits, improving product consistency and reducing off-spec production. Because many optical techniques are non-contact and non-destructive, they can also improve safety by minimizing exposure to hazardous fluids and reducing manual handling.

Typical applications include concentration control in chemical reactions, polymerization monitoring, crystallization tracking, and verification of solvent composition in pharmaceutical and specialty-chemical manufacturing. Laser absorption analyzers are widely applied for trace moisture or contaminants in gases—supporting natural-gas dehydration, compressor protection, hydrogen and syngas quality, and emissions-related monitoring. Optical methods are also effective where traditional wet-chemistry analyzers would be maintenance-intensive or too slow for dynamic processes.

Engineering considerations focus on achieving representative measurement conditions and protecting optical interfaces. Probe placement, window materials, purge strategies, temperature and pressure effects, and potential fouling must be addressed during design. For spectroscopy, calibration models and validation plans are as important as hardware selection; chemometric models may be tuned for feedstock variability and process transitions. Hazardous area approvals, enclosure ratings, and analyzer shelter design are selected to match plant standards.

Lifecycle success depends on maintaining optical cleanliness, managing calibration and model versions, and leveraging built-in diagnostics to detect signal loss or process interference. Integration with control systems and historians enables closed-loop control and data reconciliation, while remote support and digital documentation simplify troubleshooting. The result is continuous composition visibility that improves control quality, accelerates releases, and reduces sampling burden.

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