Orange Photonics

Orange Photonics

liquid chromatography equipment

Orange Photonics – ผู้ผลิตเครื่องมือวัด เครื่องทดสอบสารสำคัญจากผลิตภัณฑ์ กัญชง กัญชา (Cannabis Analyzer Model LightLab 3) โดยใช้เทคนิค Liquid Chromatography แบบพกพา (Portable) สามารถทดสอบนอกสถานที่ (Onsite Testing) เพื่อให้ได้ค่าที่แม่นยำ เพิ่มประสิทธิภาพและความสะดวกสบายในการวัด ภายในระยะเวลาประมาณ 10.5 นาที  สามารถวัดค่าองค์ประกอบสาร Cannabinoid ได้หลากหลายตามหมวดการวัด พร้อมฟังก์ชันการเชื่อมต่อ  WIFI และรองรับการทำงานด้วยแบตเตอรี่

CANNABIS Analyzer mode LightLab 3 Modules

·        Δ9-THC, THC-A, CBD, CBD-A, CBN, CBG, CBG-A (Standard Module)

·        CBN-A, CBC-A, CBC, Δ8-THC, Δ10-THC (Minor Module)

·        Δ9-THC, THC-A, Total THC (Hemp Compliance)


CANNABIS ANALYZER
Model LightLab 3

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The accurate and easy-to-use LightLab 3 Cannabis Analyzer lets non-technical users analyze cannabinoid content like a testing laboratory. LightLab uses two common analytical methods, liquid chromatography and spectroscopy, simplifying the process to make on-site testing affordable and easy.    

Standard Cannabinoids

  • Δ9-THC, THC-A, CBD, CBD-A, CBN, CBG, CBG-A

Minors Module

  • CBN-A, CBC-A, CBC, Δ8-THC, Δ10-THC

Hemp Compliance

  • Δ9-THC, THC-A, Total THC

Terpenes Module

  • Semi-quantitative

Features

  • 0-100% Cannabinoid analysis
  • Results in 10.5 minutes
  • Easy sample preparation
  • Portable, rugged
  • WiFi enabled
  • 8-hour battery life

Sample Types

  • Flower, Biomass, Young plant, Concentrates, Processed waste, Tinctures, Infused products, Edibles (Contact us)

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EASY TO USE

LightLab 3 provides lab-grade cannabinoid analysis in a rugged, easy-to-use format. Its touchscreen streamlines and simplifies the entire analytical process so every team member can follow the same workflow to produce consistent results.

  • Step-by-step – On-screen instructions guide you through each step of the sample preparation process based upon the sample type you select.
  • Accessories – Your LightLab includes all the accessories you need to begin using LightLab right out of the box, including a scale, sample shaker and more.
  • Tags – You have the option to include information about your sample including the operator’s name, sample ID etc. Each test result will automatically include date, time etc.
  • Factory Calibration – LightLab arrives pre-calibrated and ready-to-use right out of the box. LightLab calibrations use Certified Reference Standards for traceability.
  • Mobile Monitoring – LightLab’s Mobile Monitoring feature gives users the ability to remotely track testing progress from start to finish from a smartphone.
  • Results – The results from your most recent tests, as well as previous tests, may be viewed on the screen, exported as a CSV file and shared via text or email directly from LightLab.
  • Pro Mode – Advanced technical LightLab users may bypass guided screens to streamline workflow in Pro Mode and access chromatograms.
  • Workbench Setup – If you run a high volume of tests from stationary workstation, a Workbench Setup will let you run more tests at a lower cost-per-test.

RESULTS

Sample analysis results are available in five formats. 

1.       On-screen – After you run your sample, your results will populate on LightLab’s screen. From this screen you can add additional details about the sample by tapping “notes” or you can tap “done” and run your next sample. You may also scroll through your test history to compare results.

2.       Spreadsheet – LightLab provides a results spreadsheet (CSV) which gives you maximum flexibility and the opportunity to further analyze sample results in aggregate.

3.       Report – You can use the CSV file to generate a full report, containing all the details about the sample you ran, including all inputted information such as moisture correction, operator, sample size and more.

4.       Text and email – Once your LightLab is set-up on your Wi-Fi, you can share your results via text or email.

5.       Mobile Monitoring – Get an instant notification when your test results are ready; view and share those results straight from your smartphone.

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LightLab 3 results screen, all current modules shown.

Orange Photonics LightLab Brochure

LightLab 3 may be customized to meet your testing needs. LightLab’s standard configuration can report seven cannabinoids and additional modules can add greater capabilities to your LightLab.

Hemp Compliance
Compounds
  • Δ9-THC, THC-A, Total Potential THC
Product
  • Flower, Biomass, LOD 0.05%
Users
  • Cultivators, Processors, Regulators
Terpenes
Compounds
  • Semi-quantitative, Low, medium, high
Product
  • Flower, Concentrates, Infused
Users
  • Cultivators, Processors
Minors
Compounds
  • CBN-A, CBC, CBC-A, Δ8-THC, Δ10-THC
Product
  • Flower, Concentrates, Infused
Users
  • Cultivators, Processors, Breeders

HEMP COMPLIANCE MODULE

On-site THC compliance testing has never been easier. LightLab’s Hemp Compliance Module takes the guess work out of crop monitoring delivering THC-A, D9-THC and Total Potential THC content between .05% and 3% with high precision. The additional capabilities, combined with LightLab’s cannabinoid panel tests, will allow you to get a complete picture of your crop’s cannabinoid production with real-time data.

  • Monitor CBD/THC ratios
  • Harvest at peak
  • Schedule Department of Ag visits at the right time
  • Verify Certificates of Analysis
  • Evaluate biomass

Learn more about the Hemp Compliance Module here

TERPENES MODULE

Terpene molecules are responsible for the scent profiles of cannabis plants and products. They offer an indication of freshness, they impact the consumption experience, guide consumer preference and support product differentiation.  

With the Terpenes Module, LightLab can analyze the richness of the sample’s terpene content without any changes in sample preparation or hardware upgrade.

Semi-Quantitative Analysis

Over 100 cannabis terpenes have been identified to date and those terpenes generally fall into two categories: monoterpenes and sesquiterpenes. Monoterpenes comprise 80% of cannabis terpenes. LightLab can analyze and quantify the monoterpenes present in a sample and uses that analysis to make an assumption about the monoterpene-sesquiterpene ratio in the sample. LightLab reports terpene content in samples as low, medium or high terpene content offering a great first-line analysis that can help cultivators and processors understand and value their product when terpene rich products are the end goal.

Low Terpene Range: <1%
Medium Terpene Range: between 1% and 2%
High Terpene Range: >2%

No additional steps are required beyond the standard liquid extraction used for LightLab cannabinoid analysis. In addition, no additional analysis time is needed – LightLab calculates the terpene content at the same time as cannabinoid analysis.

MINORS MODULE

By their very nature, minor cannabinoids are uncommon and can be a valuable product differentiator. These minor cannabinoids in a plant or product can be an indication of unique genetics, an opportunity for product differentiation and measure of plant quality.

LightLab’s Minors Module analyzes the following five cannabinoids:

  • CBC-A: Cannabichromenic Acid.  CBC-A is the acidic form of CBC.  It is non-psychoactive and is formed in some plant genetics alongside THC-A and CBD-A, typically at lower concentration.  It’s a precursor is CBG-A.  Some genetics will exhibit 1-5% CBC-A.
  • CBC: Cannabichromene.  CBC is the neutral form of CBC-A.  CBC is often present in hemp and CBD containing plants, and more rarely in THC containing plants. Since many laboratories do not yet measure CBC, the Minors Module will allow hemp farmers, CBD growers and processors to select for higher CBC plants and differentiate their product with a new cannabinoid. 
  • CBN-A: Cannabinolic Acid.  CBN-A is the acidic form of CBN.  It is often formed from aged cannabis plants.  Very old plants may contain 0-5% CBNA.  CBN-A in combination with CBN are good indicators of the age and storage conditions of plant material.  Higher CBN-A and CBN typically indicates old plant material or poorly stored plant material.
  • Δ8-THC: Delta-8-Tetrahydrocannabinol. Δ8-THC is generally made by converting CBD or Δ9-THC in a chemical reaction. Note that the process used to create Δ8-THC often creates other cannabinoids, including Δ9-THC. When running a Δ8-THC sample, LightLab has a higher detection limit of 4% for flower samples and 12% for concentrates.
  • Δ10-THC: Degraded THC, Dihydroxy-THC. In some cases, distillation can breakdown the THC molecule into by-products, reducing the potency of the product and affecting the taste.  Two of the major breakdown components are CBN and Δ10-THC.  LightLab can measure the amount of Δ10-THC, allowing distillation operators to ensure their product is pure and potent while maintaining high throughput.  In some cases, extraction operators will intentionally attempt to generate novel cannabinoids through a degradation process.  Δ10-THC is a precursor to most of the degradation products generated. 

HOW IT WORKS

Built for Cannabis. Built for Performance.

LightLab was designed to be easy-to-use and deliver lab-grade accuracy. LightLab applies liquid chromatography which separates the cannabinoids, spectroscopy which uses light to analyze the sample’s compounds and linear regression mathematics to calculate sample results.

HIGH PERFORMANCE LIQUID CHROMATOGRAPHY

Your analytical laboratory likely uses High Performance Liquid Chromatography (HPLC) to analyze your hemp or cannabis sample. Like an HPLC, LightLab pushes an extracted cannabis sample through a column. The column separates the cannabinoids in the sample by slowing down cannabinoids by different amounts based on their affinity to the column. This allows each cannabinoid to exit the column at a different time. For example, CBD may exit the column first, then D9THC and so on. Once the column separates the cannabinoids, they move to the next step in the analytical process: spectroscopy.

ULTRAVIOLET SPECTROSCOPY

Spectroscopy uses light to measure the analytical composition of compounds. During the analytical process the sample flows between a light source and a detector. The detector will quantify how much light is getting through the sample. Since every cannabinoid has a particular light absorption signature LightLab can provide quantitative measurements. LightLab borrows spectroscopy technology from the Curiosity Mars Rover, providing an accurate and dependable analysis every time.

LIGHTLAB CHROMATOGRAM AND CALCULATIONS

When LightLab analyzes a sample, it separates cannabinoids over time and detects them with UV light at several wavelengths. An HPLC works in much of the same way, though in many cases only one wavelength of light is utilized. In a standard HPLC, the chromatogram shows peaks that represent different analytes; the area of the analyte is correlated with the concentration of that analyte. While LightLab uses the chromatogram as part of its analysis, the calculation is not a strict peak area calculation. Instead, LightLab uses a sophisticated multi-dimensional, non-linear regression to calculate results. This algorithm uses multiple UV wavelengths along with the chromatogram to determine the final results. This allows for a more robust and accurate measurement of cannabinoids even with challenging environmental conditions and complex samples.

RESULTs

Track. Share. Compare.

It has never been easier to track, share and manage your test data. Track test progress from your mobile device, share test results, and generate a Certificate of Analysis complete with authenticity verification controls.

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Click image and scan QR code to reveal Result Dashboard

CERTIFICATE OF ANALYSIS

Generate a Certificate of Analysis (CoA) with the click of a button. The CoA reports the cannabinoid content of the sample in weight percent, limits of detection, user inputted sample identifiers, and automatically generated information such as time stamp and instrument serial number. A QR code on the report corresponds with the original test results and confirms the authenticity of the report itself.  

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MOBILE MONITORING

LightLab’s Mobile Monitoring feature gives users the ability to remotely track sample test progress, start to finish from a smartphone. This gives users the ability to step away from their LightLab and tend to other tasks while running a test. LightLab sends notifications when the next step of the testing process is ready and redirects to the Result Dashboard when the test is complete.

RESULT DASHBOARD

When a test is complete, a unique QR code is generated that brings you to a Result Dashboard, populated through an internet webpage. The Result Dashboard displays sample details and final results. From this page you can share your data to your social media pages or contacts, generate an official Certificate of Analysis, and download a CSV report.

RESULTS

Sample analysis results are available in five formats.

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1.       On-screen – After you run a sample, the results will populate on the LightLab. From this screen you can add additional details about the sample by tapping “Notes,” tap “Done” to run your next sample, or select “Share” to share your results via email or text. The share feature has two options for sending results; send the Certificate of Analysis or choose to send the Result Dashboard.

2.       Certificate of Analysis – An official Certificate of Analysis (CoA) which includes user inputted sample identifiers and final results.

3.       Result Dashboard – The Result Dashboard is a unique webpage displaying sample details and final results. From this page you can generate an official Certificate of Analysis, download a CSV report, and share sample details.

4.       Report – You can use the CSV file to generate a full report containing the details about the sample you ran, including all inputted information such as moisture correction, operator, sample size and more.

5.       Text and Email – Once your LightLab is set-up on Wi-Fi, you can share your results via text or email. Sharing capabilities include an official Certificate of Analysis or the Results Webpage.

CALIBRATION

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District Derp’s Co-Owner, Chris, running samples on LightLab. Look for District Derp on social media to learn about their cutting-edge operation.

LightLab 3 is shipped to you calibrated and ready to run. After you have run 1,000 tests or after one year, whichever comes first, return your LightLab to Orange Photonics for a calibration service. LightLab calibrations use Certified Reference Standards.

The only hands-on maintenance required is the easy task of replacing the Selective Separation Column every 25 tests. LightLab runs a self-cleaning cycle automatically and therefore it does not require manual cleaning or flushing.

LIGHTLAB OPERATING EXPENSE

Like all lab-based liquid chromatography instrumentation, LightLab uses solvent to extract the cannabinoids from the sample. The same LightLab Extraction Solvent is also used as a carrier solution (mobile phase). LightLab Plant or Concentrate Test Kits include everything you need to run a sample in one economic package that includes vials, syringes, solvents, filters and Selective Separation Columns. Cost per test varies depending on the volume of tests required, but typically fall in the $3-5 price range.

LIGHTLAB WARRANTY

Your LightLab Cannabis Analyzer comes with a standard one-year factory warranty. An extended 2-year warranty option with calibration service is available. 

Pilodist

Pilodist

ผู้นำเครื่องมือวิจัยแบบ Pilot Scale, Lab Operation Unit เครื่องกลั่นผลิตภัณฑ์ปิโตรเลียม ปิโตรเคมี โพลิเมอร์ พลาสติค น้ำมันเชื้อเพลิง น้ำมันหล่อลื่น ไบโอดีเซล ก๊าซโซฮอลล์ สารเคมี แวกซ์  เป็นต้น นอกจากนี้ยังครอบคลุมการกลั่นตัวทำละลายและสารเคมีเพื่อนำกลับมาใช้ใหม่ได้ รวมทั้งการสกัดสาร หัวน้ำหอม การแยกสารสมุนไพร CBD / THC Cannabinoid Distillation สารสกัด สารสำคัญ การทำให้สารบริสุทธิ์ การทำให้สารเข้มข้น ด้วยเทคนิคหลากหลาย เครื่องดังกล่าวเหมาะกับสถาบันการศึกษา หน่วยงานวิจัย โรงพยาบาล โรงงานเครื่องสำอาง โรงพิมพ์ เป็นต้น

เครื่องมือแบ่งออกเป็นหมวดหมู่ดังต่อไปนี้

  1. เครื่องทดสอบสมดุลไอของของเหลว Vapour-Liquid-Equilibrium Apparatus
  2. ชุดเครื่องกลั่น / หอกลั่น ภายใต้ความดันบรรยากาศ และภายใต้ระบบสุญญากาศ Distillation Systems / Pilot Plants
  3. ชุดเครื่องกลั่นน้ำมันดิบ Crude Oil Distillation Systems
  4. เครื่องทดสอบค่าการหล่อลื่นของน้ำมัน (Lubricity Tester )ตามมาตรฐาน ASTM D 5001 Lubricity Tester
  5. เครื่องระเหยสาร/ เครื่องทำให้บริสุทธิ์/เครื่องทำสารเข้มข้นด้วยหลักการ Thin-Film-Evaporation Thin-Film-Evaporation, Short Path Distillation, Molecular Distillation
  6. เครื่องแยกสารด้วยวิธีการสกัด Separation by Extraction
  7. เครื่องมือวิเคราะห์การดูดซับและการคาย Sorption / Desorption
  8. ชุดอุปกรณ์ประกอบการเรียนการสอนระบบการนำความร้อน / การส่งถ่ายความร้อน / การไหลของของเหลว Heat Transfer System
  9. เครื่องผลิตและเครื่องวัดค่าโอโซน Ozone Generation
  10. อุปกรณ์ประกอบสำหรับชุดเครื่องกลั่นอัตโนมัติ Distillation Controller

 

Product Overview

·        ASTM Standards

·        Crude Oil Distillation

·        Distillation/Pilot Plants

·        Thin-Film Evaporation

·        Extraction

·        Vapour-Liquid-Equilibrium

·        Distillation Controller

 

 

Pilodist100S_23-10-20149514
ASTM Test Standards


ASTM D-1120

 

ASTM D-1160

 

ASTM D-2892

 

ASTM D-2892/5236

 

ASTM D-5236

 

ASTM D-5001

 

 

 

 

Petrodist400a_23-10-13_3
Crude Oil Distillation

ASTM D-1160

 

ASTM D-2892

 

ASTM D-2892/5236

 

ASTM D-5236

 

PETRODIST 600 S
3 ASTM procedures

 

PETRODIST 500 Q (semi-automatic
operation)

 

PETRODIST 150 S

 

PETRODIST 090 S

 

PILODIST 254
Crude oil pilot plant

 

 

_MG_3653
Distillation/Pilot Plants

Solvent Recovery

 

Continuous Distillation

 

Batch Distillation

 

Micro/Semi-Micro Distillation

 

 

Pilodist_15-07-2015_12329_SP200
Thin-Film Evaporation

FilmDist TF 650
Thin-Film Evaporation

 

PILODIST SP 500
Short-Path Evaporator

 

FilmDist SP 200
Universal Lab-Scale

 

FilmDist SP 200
Customized

 

FilmDist SP 200 HT

 

 

PILODIST_SL5_15863
Extraction

PILOEX SL 5
solid-liquid extractor

 

PILOEX SBC 01
with micro extraction column

 

PILOEX PES
Pulsated extractions system

 

PILOEX 250-SR
mixer-settler for liquid-liquid extraction

 

 

PILODIST_23-04-15_10-VLE100_2
Vapour Liquid Equilibrium

 

VLE 110
Vapour-Liquid-Equlibrium

 

PILODIST_DCD
Distillation Controller

DCD4001
Distillation Control Device

 

 

Reventfiled Designs Limited

Reventfiled Designs Limited



ผู้เชี่ยวชาญทางด้านเครื่องมือทดสอบค่าความหนืดที่อัตราการเฉือนสูง (Automatic High Temperature High Shear Viscometer – HTHS) เครื่องมือทดสอบน้ำมันเครื่องแบบอัตโนมัติด้วยวิธี Cold Cranking Simulator – CCS รุ่น CS-2 เครื่องวัดค่าความหนืดที่อุณหภูมิสูงของแก้ว (High Temperature Glass Viscometer), Ferranti Viscometer เป็นต้น


High Temperature High Shear Viscometers (HTHS)
เครื่องมือทดสอบค่าความหนืดที่อัตราการเฉือนสูง (Automatic High Temperature High Shear Viscometer – HTHS)  

Ravenfield HTHS viscometers are the favoured testing equipment of European lubricant manufacturers. Ravenfield instruments are specified in the ACEA test regime. Model BE/C is designed solely for testing at 150°C and 1 million reciprocal seconds while our models BS/C and BS/C+ are full research grade instruments


Low Temperature High Shear Viscometers (LTHS – CCS)
เครื่องมือทดสอบน้ำมันเครื่องแบบอัตโนมัติด้วยวิธี Cold Cranking Simulator – CCS รุ่น BS-C

The Ravenfield Coldshear viscometer was designed to simulate the standard low temperature test ASTM D 5293. Development of our compact, low energy consumption technology has led to the CS-2 . The CS-2 not only correlates with ASTM D 5293 but is also a full research grade rheometer.

  • อ้างอิงวิธีทดสอบมาตรฐานตาม ASTM D5293
  • การทำงานเป็นแบบอัตโนมัติ ควบคุมการทำงานผ่านโปรแกรมคอมพิวเตอร์ในตัว ตอบสนองงานทดสอบและงานวิจัยได้อย่างสมบูรณ์
  • ระบบทำความเย็นแบบเพลเทียร์ไฟฟ้า (Peltier Cooling)
  • สามารถวัดค่าความหนืดที่อุณหภูมิต่ำพร้อมแสดงค่าความหนืดในรูปแบบกราฟและตัวเลขดิจิตอลได้
  • รองรับการวัดแบบ Rhoemeter สามารถวัดค่าความหนืดแบบกำหนดค่า Shear ได้ และอุณหภูมินอกเหนือจากอุณหภูมิมาตรฐานตาม ASTM D5293 ได้

 



 

Scan

Scan

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S::CANผู้เชี่ยวชาญทางด้านเครื่องมือควบคุมคุณภาพน้ำดื่ม น้ำเสีย คุณภาพน้ำก่อนและหลังการบำบัดระดับอุตสาหกรรม เครื่องโดยใช้เทคโนโลยีขั้นสูงที่พร้อมแก้ปัญหาให้กับผู้ใช้งานได้หลากหลาย เครื่องมือที่ได้รับความนิยม เช่น เครื่องวัดค่าปริมาณคลอรีนอิสระในน้ำดื่มโดยไม่ต้องใช้สารเคมี ไม่ต้องบำบัดตัวอย่างหลังการใช้งาน  การวัดค่า TSS, Turbidity, NO3-N, COD, BOD, TOC, DOC, UV254, NO2-N, color, O3, HS-, BTX, AOC chlorine, chlorine dioxide, hydrogen peroxide, peracetic acid, conductivity, redox, fluoride, dissolved oxygen and solids in water สามารถรายงานค่าแบบต่อเนื่องหรือOnline เหมาะกับการควบคุมการทำงานในไลน์การผลิตแบบหลาย Test Parameter เป็นต้น

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Intelligent. Optical. Online.

.

Our products measure a wide range of parameters in numerous applications. From our very solid-state pH probe to our highly innovative spectral probes, all our products are developed with the same philosophy in mind: s::can measuring instruments are intelligent, robust,and require little or no maintenance. They can be seamlessly integrated with other s::can systems but are also compatible with third-party systems.

Intelligent: All s::can sensors are intelligent, they are digital and have the controller, the brain, built in. They check their health every second and can communicate with the operator.

Optical: If possible, we always use optical methods, since they are just better, more reliable, simpler,and more accurate. If no optical method is suitable, we choose the next best alternative.

Online: We make nothing for laboratories, nothing that consumes reagents, nothing with moving parts. s::can is the only real „on-line“ company in the industry that offer an almost complete range of sensors and parameters, and nothing else.

Spectrometer Probes

All s::can spectrometer probes operate using the same measuring principle: Spectrometry. The spectrometer probes are at this point the first and only instruments in the world that can measure optical spectra from 190 to 750 nm directly in liquid media. The substances contained in the medium weaken a light beam emitted by a lamp that moves through the liquid. After contact with the medium its intensity is measured by a detector over a range of wavelengths specific to the application.

Unsere Sonden und Sensoren: spectrolyser

More about our spectrometer probes

Spectrometer Probes

All s::can spectrometer probes operate using the same measuring principle: Spectrometry. The spectrometer probes are the first and only instruments in the world that can measure optical spectra from 190 to 750 nm directly in liquid media. The substances contained in the medium weaken a light beam emitted by a lamp that moves through the liquid. After contact with the medium its intensity is measured by a detector over a range of wavelengths specific to the application.

Spektrometersonden

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spectro::lyser V3

High performance online water quality monitoring! s::can proudly announces the launch of the next generation of spectrometers for online water quality monitoring. As the technology leader we have performed extensive research on our customers’ needs and developed the spectro::lyser V3 based on these results. spectro::lyser™ UV-Vis monitors depending…

spectro::lyser titanium pro

spectro::lyser™ titanium pro monitors depending on the application an individual selection of: TSS, turbidity, NO3-N, COD, BOD, TOC, DOC, UV254, NO2-N, color, O3, HS-, BTX, AOC, fingerprints and spectral alarms, temperature and pressure s::can plug & measure measuring principle: UV-Vis spectrometry over the total range (190-720 nm)…

spectro::lyser industrial ATEX

spectro::lyser™ industrial monitors depending on the application an individual selection of: TSS, turbidity, NO3-N, COD, BOD, TOC, DOC, UV254, NO2-N, color, O3, HS-, BTX, AOC, fingerprints and spectral alarms, temperature and pressure s::can plug & measure measuring principle: UV-Vis spectrometry over the total range (190-720 nm)…

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spectro::lyser UV

spectro::lyser™ UV monitors depending on the application an individual selection of: NO3-N, COD, BOD, TOC, DOC, UV254, NO2-N, BTX, AOC, fingerprints and spectral alarms, temperature and pressure.   s::can plug & measure measuring principle: UV-Vis spectrometry over the total range (190-390 nm) multiparameter probe with adjustable open…

i::scan

i::scan – the new miniature multi-parameter spectrophotometer probe will revolutionize online water quality monitoring: From very cost sensitive applications down to highly resolved “Smart Water Grids”, in small unmanned plants, or even in single building protection. The new i::scan combines the high performance of a multi wavelength spectrophotometer with even…

carbo::lyser V3

The carbo::lyser is ideal for the measurement of the organic carbon load, represented by parameters like UV254, TOC, DOC, COD, or BOD, and at the same time, turbidity / solids concentration. Applicability ranges from pure water to industrial waste water. Pre-calibrations for different types of water and applications significantly facilitate…

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ozo::lyser V3

Measurement of ozone in water is what the ozo::lyser is optimized for. This member of the spectrometer family is optimized to determine concentrations of ozone dissolved in water online and InSitu. It offers an attractive alternative to classical electrochemical ozone sensors, thanks to its very low maintenance requirement and extreme…

nitro::lyser V3

Applications range from (ultra) pure water in the μg/l range up to industrial waste water in the g/l range. The nitrate concentration displayed is not sensitive to cross-influences from other substance groups such as organic carbon or total solids. The measured parameters are always nitrate and turbidity / solids concentration.

multi::lyser V3

The multi::lyser is a combination of s::can carbo::lyser and nitro::lyser. That means that the s::can multi::lyser is characterised by measuring organic carbon & nitrate for a multitude of pre-defined applications. The multi::lyser is ideal for surface water, ground water, drinking water, wastewater and offers an optimum of cost effectiveness and…

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uv::lyser V3

The uv::lyser monitors turbidity or TSS and up to 4 freely chosen wavelengts between 190 and 720 nm. Furthermore, depending on the application, it also measures turbidity or solids. The uv::lyser provides cost effective but accurate and precise instrument for applications in surface water, ground water, drinking water and wastewater.

Other Sensors

The ammo::lyser™ is an ion-selective multiparameter probe that can continuously determine the parameters ammonium, potassium, nitrate, pH and temperature directly in the water – without the need for complicated and maintenance-intensive sample pretreatment. In addition, s::can also offers sensors for measuring chlorine, chlorine dioxide, hydrogen peroxide, peracetic acid, conductivity, redox, fluoride, dissolved oxygen and solids in water.

our products: ammolyser

More about our sensors

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ammo::lyser pro

A multi-parameter probe for the online measurement of ammonium. It is an absolutely reliable device outclassing conventional analysers in terms of measurement stability and lifetime. Precision is guaranteed by real time compensation of the ammonium value with temperature, pH and potassium and a high performance reference electrode. ammo::lyser™…

ammo::lyser eco

A multi-parameter probe for the online measurement of ammonium. It is an absolutely reliable device outclassing conventional analyzers in terms of measurement stability and lifetime. Precision is guaranteed by real time compensation of the ammonium value with temperature, pH and potassium and a high performance reference electrode. ammo::lyser…

chlori::lyser

The chlori::lyser is a revolutionary pH- and flow-independent sensor for monitoring free chlorine or total chlorine. Its internal buffer electrolyte allows pH-independent measurement between pH 4 to 10+, and its 3-electrode system provides extremely stable readings. High precision is ensured even at high fluctuations of pH, temperature and flow.  …

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chlodi::lyser

The chlodi::lyser is an amperometric sensor for monitoring chlorine dioxide. It is ideal for all kinds of water treatment and produces stable readings even at high fluctuations of pH, temperature and flow. Strong surfactants are tolerated and the chlodi::lyser is not cross sensitive to chlorine. chlodi::lyser measures chlorine dioxide s::can…

hyper::lyser

The hyper::lyser is an amperometric sensor for monitoring hydrogen peroxide. It is ideal for all kinds of water treatment and produces stable readings even at high fluctuations of pH, temperature and flow. Strong surfactants are tolerated.   s::can plug & measure measuring principle: amperometric (membrane covered) ideal for all kinds…

peroxy::lyser

The peroxy::lyser is an amperometric sensor for monitoring peracetic acid. It is ideal for all kinds of water treatment and produces stable readings even at high fluctuations of pH, temperature and flow. Strong surfactants are tolerated and the peroxy::lyser is not cross sensitive to high concentrations of hydrogen peroxide.  …

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condu::lyser

The condu::lyser is a maintenance-free and long-term stable probe for online measurement of conductivity, automatically compensated with temperature. It can be mounted directly in the media or in a flow cell providing high precision by either conductive or inductive measurement. Thanks to the high measurement range it is ideal for…

redo::lyser

The redo::lyser is a long-term stable and maintenance free sensor for the online measurement of the redox potential immersed in the medium or in a flow cell. Thanks to a groundbreaking reference electrode, high precision is guaranteed in virtually any medium and under harshest conditions. It is pre-calibrated ex works…

pH::lyser

The pH::lyser is a maintenance-free sensor for the real-time measurement of pH and temperature directly in the medium or in a flow-cell. Even under tough conditions (up to 90°C) or in water with very low conductivity long term stability and precise measurement is ensured. The sensor is pre-calibrated ex works…

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fluor::lyser

The fluor::lyser is an ion-selective measuring device designed for the continuous monitoring of the concentration of fluor (F) dissolved in water. Also the instrument continuously measures the temperature of the medium and corrects the measured concentration accordingly. For proper usage the probe has to be connected to an s::can controller,…

soli::lyser

The soli::lyser is an optical probe that measures concentrations of suspended solids directly in the water. It integrates the temperature measurement for online correction. Using the principle of infrared absorbance, the readings are not affected by colors. The soli::lyser utilizes an automatic cleaning system that uses compressed air for removal…

oxi::lyser

The oxi::lyser is an optical multi-parameter probe that measures the concentration of dissolved oxygen and the temperature directly in the water. It does not need a minimum flow to produce accurate readings and integrates the temperature measurement for On-Line correction. Minimal conventional calibration and virtually zero maintenance.   oxi::lyser™…

Terminals & Software

With the con::cube, s::can has in fact established a standard for industrial process control terminals. Via a large color display and a touch panel it allows menu-driven, user-friendly communication with all s::can sensors and basically any other digital (RS485) or 4-20 mA sensor of different make, as well as the operation of distributed systems, either via telephone, radio, GSM, or GPRS telemetry: all available in one terminal.

Terminal - con::cube V3

More about our terminals & software

With the con::cube, s::can has established a standard for industrial process control terminals. Via a large color display and a touch panel it allows menu-driven, user-friendly communication with all s::can sensors and basically any other digital (RS485) or 4-20 mA sensor of different make, as well as the operation of distributed systems, either via telephone, radio, GSM, or GPRS telemetry: all available in one terminal.

Bediengeräte & Software

 

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con::cube V3

con::cube – a compact, versatile terminal for data acquisition and station control. Newest processor technology and very flexible options for interfacing to SCADA or any central database systems makes the con::cube in combination with moni::tool a powerful terminal for compact station control. s::can high-end IoT (Internet of Things) terminal…

moni::tool

moni::tool is a revolutionary new platform for the management of an almost unlimited number of stations, online probes, analyzers and parameters. Intuitive operation – on site or remote – and reams of valuable features make moni::tool essential for state of the art sensor and station management.

vali::tool

vali::tool automatically detects, marks and (optionally) corrects untrustworthy data, it detects outliers, noise and checks for discontinuous data. It ensures only high quality data are fed into the event detection module. It also provides the user with indications on sensor maintenance requirements, as well as automatic detection of malfunctions. Provides…

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ana::tool

ana::tool identifies unknown and unusual conditions and enables operators to react in a timely manner to faults in the monitored system, determines normality of this data and triggers an alarm when a significant deviation from the norm is detected   Start ana::tool is installed with application-specific default settings ana::tool requires…

con::lyte

The terminal con::lyte displays the readings of all s::can probes & sensors connected on site via backlight LCD. Seven push buttons are available to ensure operation and changing of settings via software, which is optimised in respect of user-friendly operation and operational safety. s::can low-cost terminal designed for control applications…

Io::Tool

Intuitive web interface for data visualization and configuration of the spectro::lyser V3. View all your data at a glance on your mobile device Io::Tool visualizes measurement data, time series, fingerprints and status information Configure your spectro::lyser, install new parameters, and perform calibrations Try Io::Tool online!…

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visu::tool

visu::tool is a fast and easy-to-use data visualization software for PCs and notebooks. In 3 simple steps you can visualize huge amounts of data from con::cube or con::lyte into single or multiple graphs. The visu::tool “lyte” version is available for free download. The advanced visu::tool “pro” version includes a vast…

con::nect V3

Power supply for the spectro::lyser V3. Connect to the spectro::lyser via Bluetooth or WLAN and use the user-friendly webinterface Io::Tool for probe configuration and data visualization. s::can connection device for one spectrometer V3 probe and one cleaning device expand con::cube/con::lyte sensors networks (longer distances and higher number of…

con::nect

For operating the spectro::lyser™, an commercial computer/notebook can be used. In this case the interface box con::nect connects the probe to the computer/notebook, to the supply of compressed air and to the power supply. This way, your computer/notebook is transformed into a terminal for the spectro::lyser™.   s::can power…

pipe::scan

The pipe::scan is a modular sensor system for monitoring drinking water quality in pipes under pressure. It measures up to 10 parameters in one device: TOC, DOC, UV254, Turbidity, Color, Chlorine, pH/Redox, Conductivity, Temperature and also Pressure. The water quality data can be sent to basically any central database via almost any protocol. Multiple pipe::scans are certainly the ideal solution to monitor drinking water at any point in the network.

our sensors: Pipescan

More about the pipe::scan

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pipe::scan

Drinking water quality monitoring in the network

The pipe::scan is a modular sensor system for monitoring drinking water quality in pipes under pressure. It measures up to 10 parameters in one device: TOC, DOC, UV254, Turbidity, Color, Chlorine, pH/Redox, Conductivity, Temperature and Pressure. The water quality data can be sent to any central database via almost any protocol. Multiple pipe::scans are the ideal solution to monitor drinking water at any point in the network.

  • Accurate measurement in perfect agreement to standardized lab reference… not just ”trending”
  • Organics and Turbidity monitoring
  • Totally flow-independent, even works under stagnating conditions
  • Hot-maintenance: without interrupting the flow/pressure, and for each sensor individually
  • Full-scale event detection with real-time alarms within the drinking water distribution network
  • 6 months service time: Efficient, reliable stand-alone operation without maintenance

Datasheet Drinking Waterpipe::scan Brochure

pipe::scan

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Monitoring Stations

The fully modular s::can monitoring stations combine s::can instruments to a compact and versatile system. They present a complete solution, so the user only has to connect water supply and -discharge (“plug & measure”) in order to receive at no extra cost a previously unheard variety of immediately available information and parameters.

our products: Micro::station

More about the micro::station

The fully modular s::can monitoring stations combine s::can instruments to a compact and versatile system. They present a complete solution, as the user only has to connect water supply and -discharge (“plug & measure”) in order to receive at no extra cost a previously unheard variety of immediately available information and parameters.

Stationen

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micro::station for Drinking Water

The s::can drinking water micro::station is designed for online monitoring of water quality parameters in clean media. The required components – spectro::lyser, s::can probes and controller – are factory assembled with all required flow cells, mounting fittings and pipework on a compact panel. The fully modular micro::station combines s::can instruments…

micro::station for Waste Water

The s::can micro::station for waste water is designed for online monitoring of water quality parameters in waste water. The required components – spectro::lyser, s::can probes and controller – are factory assembled with all required flow cells, mounting fittings and pipes on a compact panel. The fully modular micro::station combines s::can…

nano::station

The fully modular nano::station combines s::can instruments to a super-compact and versatile system. It presents a complete solution, as the user only has to connect water supply and -discharge in order to receive at no extra cost a previously unheard variety of immediately available information and parameters. The s::can nano::station…

Accessories

Our automatic cleaning systems keep your probes and sensors clean and therefore minimizing regular maintenance. Our accessories also include flow fittings for drinking and waste water, brackets, extension cables and various spare parts.

our products: cleaning devices

More about the accessories

auto::blade

Mechanical Cleaning for spectrometer probes with path length 5 mm Mounting on F-48-V3 wastewater flow cell Exchangeable wiper blades Set of cleaning and valve unit Technical Specification Power Supply: 12 VDC Power consumption (typical): 200 mA Cable length: 1,5 m Tube length: 1,5 m Housing…

i::scan carrier

for easy attachment of one i::scan technical specification  housing material: PVC, POM-C dimensions (diameter x lenght): 58 x 115 (without connection fitting) installation / mounting: submersed   part numbers F-110-iscan: carrier for i::scan, for easy horizontal attachment F-120-iscan: carrier for i::scan, for easy vertical…

ruck::sack

Submersible Autobrush for spectrometer probes and i::scan Exchangeble brushes for spectrometer probe with path length 35, 15, 5 mm and i::scan 35, 5 mm One Basis module (motor unit) for all Versions Shelter protects the brush from clogging   Technical Specification Power supply: 12 VDC Power consumption…

auto::blade

Mechanical Cleaning for spectrometer probes with path length 5 mm Mounting on F-48-V3 wastewater flow cell Exchangeable wiper blades Set of cleaning and valve unit Technical Specification Power Supply: 12 VDC Power consumption (typical): 200 mA Cable length: 1,5 m Tube length: 1,5 m Housing…

i::scan carrier

for easy attachment of one i::scan technical specification  housing material: PVC, POM-C dimensions (diameter x lenght): 58 x 115 (without connection fitting) installation / mounting: submersed   part numbers F-110-iscan: carrier for i::scan, for easy horizontal attachment F-120-iscan: carrier for i::scan, for easy vertical…

ruck::sack

Submersible Autobrush for spectrometer probes and i::scan Exchangeble brushes for spectrometer probe with path length 35, 15, 5 mm and i::scan 35, 5 mm One Basis module (motor unit) for all Versions Shelter protects the brush from clogging   Technical Specification Power supply: 12 VDC Power consumption…

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flow cell for sensors (waste water)

For proper and easy installation of s::can sensors (pH::lyser, redo::lyser or condu::lyser) in waste water technical specification housing material: PVC dimensions : 177 x 95 x 111 mm Part Number: F-48-sensor…

single flow-cell (by-pass fitting), Pom-C (for i::scan)

for proper and easy flow-through installation of one i::scan automatic cleaning with autobrush for i::scan available (optional)   technical specification housing material: POM-C dimensions (diameter x length): 70 x 86 process connection: G 1/4″, hose nozzle 7mm installation / mounting: flow cell operating temperature:…

flow cell – for pathlength 100 mm

for proper and easy flow-through installation of s::can spectrometer probes for applications without automatic cleaning OPL 100 mm   technical specification housing material: POM-C dimensions (diameter x length): 60 x 160 mm weight (min.): 300 g process connection: G 1/4”, hose nozzle 7mm installation /…

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flow cell for sensors (waste water)

For proper and easy installation of s::can sensors (pH::lyser, redo::lyser or condu::lyser) in waste water technical specification housing material: PVC dimensions : 177 x 95 x 111 mm Part Number: F-48-sensor…

single flow-cell (by-pass fitting), Pom-C (for i::scan)

for proper and easy flow-through installation of one i::scan automatic cleaning with autobrush for i::scan available (optional)   technical specification housing material: POM-C dimensions (diameter x length): 70 x 86 process connection: G 1/4″, hose nozzle 7mm installation / mounting: flow cell operating temperature:…

flow cell – for pathlength 100 mm

for proper and easy flow-through installation of s::can spectrometer probes for applications without automatic cleaning OPL 100 mm   technical specification housing material: POM-C dimensions (diameter x length): 60 x 160 mm weight (min.): 300 g process connection: G 1/4”, hose nozzle 7mm installation /…

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s::can compressor

provides compressed air for s::can spectrometer probes, oxi::lyser, soli::lyser and ammo::lyser™ removal of fouling using compressed air aluminium housing IP65 for wall mounting optional 12 VDC or 110 VAC version available railing-mounting set available   technical specification power supply:…

Pressure mounting for i::scan in-pipe Installation (i::scan removal under pressure)

for proper and easy installation of one i::scan in a pressure pipe under pressure drilling of pipes possible (for PE, PVC, DCI, steel and AC pipes) the i::scan can be mounted and demounted under pressure without interuption of the water flow   technical specification housing…

cleaning valve

supports automatic cleaning of measuring elements of s::can spectrometer probes, oxi::lyser, soli::lyser and ammo::lyser™ removal of fouling, sediments and clogging using compressed air or water version B-44-2 specially for use in comination with the s::can compressor   technical specification cable length: 2.4…

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pressure connection replacement set

simple and proper supply of compressed air for cleaning compatible with certain s::can flow cell fittings   technical specification cable length: 3 m assembling: ex works housing material: jacket PU, connection nozzle in nickel-plated brass (for spectrometer probes: fitting PP) process connection:…

flow cell for i::scan (waste water)

for proper and easy flow-through installation of one i::scan in waste water application   technical specifications  housing material: PVC dimensions (lenght x width x height): 177 x 83 x 90 mm process connection: 1″ inside thread installation / mounting: flow cell recommended flow: <…

flow cell autobrush – for spectro::lyser pathlength 100 mm

for proper and easy flow-through installation of s::can spectrometer probes for applications with frequent, automatic cleaning cleaning of optical windows with rotating brush without demounting of spectrometer probes OPL 100 mm     technical specification power supply: 12 VDC assembling: ex works…

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fixing adapter – stainless steel

supports the proper and easy installation of s::can systems quick mounting and demounting of InSitu installed s::can probes and sensors   technical specification housing material: stainless steel weight (min.): 2.6 kg process connection: ID 50 mm part number: F-15 recommended accessories F-14-3 mounting…

cleaning brush

supports quick, easy and proper cleaning of optical windows of s::can spectrometer probes mechanical removal of persistent window fouling for pathlength 2, 5 or 15 mm   technical specification dimensions (diameter x length): length 200 mm weight (min.): 1 g part number: B-60-1 for 2…

flow cell autobrush – for spectro::lyser pathlength 35 mm

for proper and easy flow-through installation of s::can spectrometer probes for applications with frequent, automatic cleaning cleaning of optical windows with rotating brush without demounting of spectrometer probe OPL 35 mm   technical specification power supply: 12 VDC assembling: ex works housing material: POM-C…

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cleaning agent

supports quick, easy and proper cleaning of optical windows of s::can spectrometer probes chemical removal of persistent window fouling very effective for grease and organic fouling   technical specification weight (min.): 1.3 kg part number: B-61-1…

s::can field case

stand-alone operation of s::can spectrometer probes no on-site power supply necessary for remote monitoring tasks without infrastructure   technical specification power supply: 12 VDC nominal assembling: ex works housing material: PP dimensions (width x height x depth): 270 x 175 x 245 mm…

power cord for con::cube and con::lyte

optional 2 m power cable for s::can terminals   technical specification cable length: 2 m assembling: ex works housing material: jacket: PU process connection: CEE-7 shockproof plug protection class: IP 44 sales region: Europe part number: C-31-eu…

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weather shield for s::can terminals

for protection against severe weather conditions transparent cover plate available (optional) mounting prepared for con::cube or con::lyte for mounting on walls or railings incl. mounting device for diameter 40-63mm technical specification housing material: stainless steel dimensions (width x height…

flow cell for four s::can physical probes

for proper and easy flow-through installation of condu::lyser, chlori::lyser, redo::lyser and pH::lyser for applications without automatic cleaning in drinking water   technical specification housing material: POM-C dimensions (diameter x length): 106 x 103 weight (min.): 1.05 kg process connection: G 1/4″, hose nozzle 7mm…

carrier s::can sensors

for proper and easy submersed installation of an s::can sensor sensor cable and pressure hose compatible mounting with pipe (AD 50 mm)   technical specification housing material: PVC and stainless steel dimensions (diameter x length): 85 x 86 mm weight (min.): 300 g…

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i::scan flow cell for i::scan and up to 3 additional s::can probes

for proper and easy flow-through installation of one i::scan and up to three s::scan physical probes automatic cleaning with autobrush for i::scan available (optional)   technical specification housing material: POM-C dimensions (diameter x length): 106 x 103 weight (min.): 1 kg (without autobrush) process…

extension cable for s::can sensors and s::can ISE probes

extension of sensor cable IP 68 plug connection flexible adjustment to local conditions    technical specification cable length: 10, 20 or 30 m assembling: ex works housing material: jacket: PU protection class: IP 68 interface connection to s::can sensors:…

flow cell – for spectrometer probe (Waste Water)

for proper and easy flow-through installation of one spectrometer probe in waste water applications   technical specifications housing material: PVC dimensions (lenght x width x height): 177 x 83 x 90 mm process connection: 1″ inside thread installation / mounting: flow cell recomended flow:…

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reference electrode for ammo::lyser™

long life time (typically 3 years) non-porous, solid state electrode smaller drift than conventional electrodes   technical specification dimensions (diameter x length): 20 x 145 mm weight (min.): 100 g protection class: IP 68 (mounted in housing) part number: E-532-ise-ref (for ammo::lyser V1, spare…

potassium electrode for ammo::lyser™

technical specification dimensions (diameter x length): 20 x 145 mm weight (min.): 100 g protection class: IP 68 (mounted in housing) part number: E-532-ise-K (for amm::lyser V1, spare part) E-533-ise-K (for ammo::lyser V2, spare part)…

pH electrode for ammo::lyser™

technical specification part number: E-532-ise-pH (for ammo::lyser V1, spare part new) E-533-ise-pH (for ammo::lyser V2, spare part new)…

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flow cell for ISE probe (Waste Water)

for proper and easy flow-through installation of ammo::lyser in wastewater technical specification housing material: PVC dimensions : 177 x 83 x 108 mm part Number: F-48-ammo…

ammonium electrode for ammo::lyser™

technical specification dimensions (diameter x length): 20 x 145 mm weight (min.): 100 g protection class: IP 68 (mounted in housing) part number: E-534-ise-NH4 (for ammo::lyser V1, spare part) E-535-ise-NH4 (for ammo::lyser V2, spare part)…

Inserts for spectrometer, stainless steel, saphire windows

for adaption or repair the optical path length of s::can spectrometer probes stainless steel (ISO 1.4404), suitable for 35/5/2/1/0,5 mm OPL incl. sealings, saphire measurment windows and service tools expert service by s::can Salespartner required; for permanent application!   part numbers A-500-s (for optical pathlength 0.5…

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flow cell – for pathlengths from 0.5 mm to 35 mm

for proper and easy flow-through installation of s::can spectrometer probes for applications without automatic cleaning OPL 0.5 … 35 mm   technical specification housing material: POM-C dimensions (diameter x length): 74 x 132 mm weight (min.): 450 g process connection: G 1/2”, hose nozzle 12mm…

multifunctional slide for pathlengths from 0.5 mm to 35 mm

for referencing of spectrometer probes for pathlength 0.5 – 35 mm for spectral measurement in laboratory   technical specification dimensions (diameter x length): 60 x 100 mm (outside) installation / mounting: for 0.5 mm to 35 mm part number: E-421-1…

multifunctional slide for pathlength 100 mm

for referencing of spectrometer probes for pathlength 100 mm for spectral measurement in laboratory   technical specification dimensions (diameter x length): 60 x 160 mm (outside) installation / mounting: for 100 mm part number: E-421-2…

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carrier s::can spectrometer probe

for proper and easy submersed installation of s::can spectrometer probes  probe cable and pressure hose compatible mounting with pipe (AD 50 mm)   technical specification housing material: PVC and POM-C dimensions (diameter x length): 63 x 403 (for F-110-spectro); 63 x 510 mm (for F-120-spectro)…

flow cell – for pathlength 100 mm

for proper and easy flow-through installation of s::can spectrometer probes for applications without automatic cleaning OPL 100 mm   technical specification housing material: POM-C dimensions (diameter x length): 74 x 196 mm weight (min.): 800 g process connection: G 1/2”, hose nozzle 12mm installation /…

extension cable for s::can spectrometer probes

extension of probe cable IP 67 plug connection flexible adjustment to local conditions   technical specification cable length: 10, 20 or 30 m assembling: ex works housing material: jacket: PU protection class: IP 67 interface connection to s::can spectrometric probes: MIL 10P, IP 67,…

Thar Process

Thar Process
Thar Process

Thar Process – ผู้เชี่ยวชาญทางด้านการสกัดสารจากผลิตภัณฑ์ธรรมชาติ สมุนไพร กัญชง กัญชา โดยใช้เทคนิคการสกัดด้วยคาร์บอนไดออกไซด์ยิ่งยวด (Supercritical Fluid Extraction) แบบไม่ใช้สารเคมีหรือตัวทำละลายไฮโดรคาร์บอน ทำให้ได้สารสกัดที่ปลอดสารเคมี ปลอดภัยต่อสุขภาพ นอกจากนี้มีเครื่องสำหรับแยกสารสกัดให้บริสุทธิ์ด้วยหลักการแยกโครมาโตรกราฟี (Chromatography) สำหรับอุตสาหกรรมยา วัคซีน อาหาร โปรตีน อาหารเสริม เครื่องดื่ม เครื่องสำอาง เป็นต้น

Technology

We develop Supercrital CO2 Extraction (SCFE) and Purification (SFC) equipment that ranges from lab to industrial scale.

SUPERFAST™ Supercritical Fluid Extraction Equipment (SCFE) SYSTEMS


A more efficient, safer and organic way of obtaining plant extracts while preserving the plants’ natural properties.
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SUPERFAST™ 2x9
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  • SUPERFAST™ 2x120
  • Sterilization / Food Preservation
  • Monomer / Polymer Purification
  • Flavors and Frangrances
  • Textile Cleaning / Dyeing
  • Industrial-scale Cannabis
  • SUPERFAST™ 2x360
  • Sterilization of: APIs / Orthopedics / Biologics
  • Monomer / Polymer Purification
  • Food Sterilization / Preservation
  • Oil Extraction from Natural Biomass
  • SUPERFAST™ 2x720
  • Monomer / Polymer Purification
  • Industrial-scale Hops / Hemp
  • Textile Cleaning / Dyeing
  • Aerogel / Extrusion
  • Impregnation
  • SUPERFAST™ 2x1650
  • Hops / Hemp / Oil Seeds
  • Coffee / Tea Decaffeination
  • Reactions / Polymerization
  • DHA
  • Capacity -Up to 5,000 kg/day
  • Supercritical Fluid Chromatography Purification Equipment (SCFC)

    ISOLATOR™ Supercritical Fluid Chromatography Systems

    Purification SFC is a normal-phase chromatographic technique that uses carbon dioxide as the main mobile phase. CO2 is an ideal solvent because of its low viscosity and high diffusivity. It is also sustainable, since it is recycled after being discarded from other industrial processes.  Analytical cannabis published this piece in spring 2021.
     Learn more

    Isolator™ SFC 10

  • Pre-Clinical Trials
  • Cannabis Labs
  • Chiral Separations
  • Impurities Isolation
  • Natural Products IND Dev
  • Isolator™ SFC 20

  • Pre-Clinical Trials
  • Cannabis Labs
  • Chiral Separations
  • Impurities Isolation
  • Natural Products IND Dev
  • Isolator™ SFC 60

  • Remediation of Pesticides / Fungicides
  • Cannabinoid Isolation / THC Remediation
  • Flavors and Frangrances
  • Pharmaceutical API Production (Chiral)
  • ISOLATOR™ COLUMN MEDIA

    Isolator™ X : Best used for cost-sensitive research and development

    Isolator™ XX - HFT : Best used for separation of minors and THC remediation

    Isolator™ XXX : Best used for high-throughput THC remediation

    Isolator™ XXXX : Best used for well-funded, unique research and development applications