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1030 Technology. The Aurora Technology. Wet Oxidation -1030W 100 *C heated sodium persulfate technology Low System background Optional POC module. Key Basic Features. Windows CE User Interface Modular Design Autosampler Flexibility Advanced Software Features IQ/OQ/PQ Documentation.
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The Aurora Technology • Wet Oxidation -1030W • 100 *C heated sodium persulfate technology • Low System background • Optional POC module
Key Basic Features • Windows CE User Interface • Modular Design • Autosampler Flexibility • Advanced Software Features • IQ/OQ/PQ Documentation
Aurora 1030 Innovations Rotary Valve
Rotary Valve • Composite materials, Combines structure and wear characteristics of ceramics with advanced polymer capabilities for extending life of moving components • Combines most leak points to single front panel location • Provides bypass capability to support isolation loop • Low internal volume to maximize sample delivery capabilities.
Aurora 1030 Innovations Isolation Loop
Isolation Loop DI Water • Unmatched Accuracy and Dependability • Only water enters Aurora’s control syringe • Ultimate syringe protection • Utilizes innovative bypass port of the rotary valve
Isolation Loop • Syringe Life protected • Only water enters Aurora’s control syringe • Ultimate syringe protection • GRAVITY WORKS! When particulates enter a syringe they cause damage • Minimize carry over and rinse requirements • Tubing loop rinses automatically after each injection • Utilizes innovative bypass port of the rotary valve Waste
Aurora 1030 Innovations Electronic Flow Control
Electronic Flow Control • Unmatched Accuracy and Dependability • Ultimate flow optimization/ Data Accuracy • Provides after reaction dilution, allows the oxidation process to be optimized with no regard to final gas concentration Dynamic Range Extension • Provides same sample flow dilution control for divergent samples e.g. 3000 ppm TIC, 1 ppm TOC • Extended diagnostics Divergent Samples
Aurora 1030 Innovations Parallel reactors
Parallel Reactors Aurora 1030W analyzers equipped with parallel reaction chambers allow concurrent processing of samples to maximize throughput and productivity. Parallel reaction chambers provide built-in redundancy to safeguard laboratory operation and data integrity. Parallel Processing for: Total Organic Carbon (TOC) Non-Purgeable Organic Carbon (NPOC) Total Carbon (TC) Total Inorganic Carbon (TIC )
TOC performance Limit of detection : 2 ppb Max. Concentration: 30,000ppm TC, IC, TOC (TC-IC), TOC (NPOC) Stable NDIR detector Sample size: up to 20ml Analysis time: 10 minutes for triplicate Aurora 1030W - Heated Persulphate TOC Analyzer
Parallel Chamber Configuration For High Throughput TOC Analysis
Demand for High Throughput • Issues with processing multiple samples. • Support regulatory requirements • Trained staff • Serial processing • Demand is driving more for less.
Serial Processing Sample 1 Sample 2
Exploiting Available Efficiencies • Sample delivery requirements. • This prevents pre-processing as the device waits for the current events to complete before acting. • Static controls • Requires all samples be processed as “worse case”
Parallel Processing Sample 1 Sample 2 Sample 3 Legend 1. Sample aliquot Sample 4 2. Sample preprocessing 3. TIC processing 4. TOC processing 5. Drain 6. Clean
Check Standard Sipper Mode ppm %RSD %accuracy ppm %RSD %accuracy Drinking Water Single Chamber 1.006 0.20 0.60% Parallel Chamber 1.014 0.43 1.40% Results ppm %RSD ppb error ppm %RSD ppb error Single Chamber 0.040 1.83 0.73 Parallel Chamber 0.047 2.18 1.02 0.040 6.67 2.67 0.046 3.49 1.61 0.044 1.58 0.70 0.048 1.13 0.54 0.041 4.55 1.87 0.047 3.35 1.57 0.042 2.02 0.85 0.048 5.19 2.49 0.041 2.53 1.04 0.046 1.80 0.83 0.039 3.22 1.26 0.049 6.00 2.94 0.041 1.74 0.71 0.047 2.24 1.05 0.042 3.48 1.46 0.045 4.11 1.85 0.041 3.14 1.29 0.048 0.53 0.25 0.043 3.36 1.44 0.049 2.76 1.35 0.042 2.59 1.09 0.046 0.87 0.40 0.042 2.86 1.20 0.047 1.79 0.84 0.042 1.34 0.56 0.049 4.58 2.24 0.042 2.93 1.23 0.045 1.92 0.86 Average 0.041 2.92 1.21 0.047 2.80 1.32 Results
Per Sample Single chamber Parallel chamber 5:05:24 AM 5:01:10 PM 5:37:31 AM 0:32:07 5:27:49 PM 0:26:39 6:09:35 AM 0:32:04 5:50:25 PM 0:22:36 6:41:29 AM 0:31:54 6:13:01 PM 0:22:36 7:13:34 AM 0:32:05 6:35:39 PM 0:22:38 7:45:38 AM 0:32:04 6:58:16 PM 0:22:37 8:17:31 AM 0:31:53 7:20:52 PM 0:22:36 8:49:30 AM 0:31:59 7:43:28 PM 0:22:36 9:21:37 AM 0:32:07 8:06:02 PM 0:22:34 9:53:43 AM 0:32:06 8:28:40 PM 0:22:38 10:25:44 AM 0:32:01 8:51:18 PM 0:22:38 10:57:49 AM 0:32:05 9:13:55 PM 0:22:37 11:29:51 AM 0:32:02 9:36:30 PM 0:22:35 12:01:50 PM 0:31:59 9:59:07 PM 0:22:37 12:33:54 PM 0:32:04 10:21:43 PM 0:22:36 1:05:58 PM 0:32:04 10:44:21 PM 0:22:38 Average 0:32:02 Average 0:22:53 Per Rep Avg (/4) 0:08:01 Per Rep Avg (/4) 0:05:43 Total 8:00:34 Total 5:43:11 +39% Time Differential +39% Average 32:02 Average 22:53
Benefits and Options • Reduction of manpower. • Essentially adding 6 man-hours per day. • Maximize capitol investment of equipment. • Allows backup position of running single chamber should a component failure occur.