| ENGINEERING SPECIFICATIONS: StarTOC SEMI-AUTOMATIC BENCHTOP TOC | ||||||||
| Model/Name | StarTOC Semi-Automatic Benchtop TOC Analyzer | Notes | ||||||
| Analysis Method | Semi-Automatic Benchtop TOC/Non-Dispersive Infrared (NDIR) CO2 Detection | |||||||
| Analytes Measured | Total Organic Carbon; Total Carbon; Total Inorganic Carbon; Non-Purgeable Organic Carbon. | |||||||
| Detector Type (CO2) | NDIR (solid state; no moving parts; computer-controlled; non-reflective sample cell-impervious to corrosion and guaranteed for 5 years) | Footnote 1 - NDIR vs Conductivity | ||||||
| Control/Data Handling | Internal Microprocessor, Menu Prompting | |||||||
| Sample Introduction | Manual Injection Sparger. Manual Syringe Injection into UV/Persulfate Reactor and High Temperature Combustion Reactor (option) | |||||||
| Sample Handling | Up to 400 Microns Suspended Solids | |||||||
| Measurement Specifications | ||||||||
| Measurement Range (mg/L) | 0-10 thru 0-1000 | |||||||
| Accuracy/Repeatability (%) | 3 | Dependant on Manual | ||||||
| Sample Injection precision | ||||||||
| Carrier Gas Flow (mL/min.) | 300 mL/max - Computer Controlled Mass Flow | |||||||
| Controller CO2 & HC - FREE AIR, OR O2 | ||||||||
| 15 +/- 2 PSI | ||||||||
| Average Analysis Time (minutes) | TC - 2 minutes | |||||||
| TOC - 3 minutes sparging/single sample | Can perform Multiple Sample Sparging to Conserve time | |||||||
| Outputs | RS-232 | |||||||
| Thermal Printer (option) | ||||||||
| Display | LCD | |||||||
| UTILITIES Required | ||||||||
| Power: | 100/200 VAC | |||||||
| 50/60 HZ. | ||||||||
| 10 Amp Service | ||||||||
| Carrier Gas | CO2 & HC - free air or O2 (300 mL/minute-max.); | |||||||
| 15 +/- 2 PSI | ||||||||
| Reagents | Prepackaged Sodium Persulfate | |||||||
| Phosphoric Acid | ||||||||
| Calibration Standards | ||||||||
| D.I. Water | ||||||||
| Sample Drain | gravity/air break | |||||||
| Environment | Operating Temperature: 10° - 50°C | |||||||
| 50° - 122°F | ||||||||
| Construction | ||||||||
| Enclosure | Stainless Steel & Epoxy Powder Coated Aluminum | |||||||
| Dimensions (HXWXD) | 51 X 58 X 25 (cm) | |||||||
| 20 x 23 x 10 (in) | ||||||||
| Mounting | BenchTop | |||||||
| Weight | 14 Kg | |||||||
| 30 Lbs | ||||||||
| Compliance/Certification | CE, CSA, ASTM, EPA Methods | |||||||
| Conformity | Complying with all International Standards, such as: | |||||||
| DIN-EN 1484, DIN-ENV 12260, DIN 38409-H3, | ||||||||
| ISO 8245, Standard Method 5310B, Standard Method | ||||||||
| 5310C, Standard Method 5310D, USEPA 415, | ||||||||
| USEPA 9060, ASTM D5173, EN 13137 | ||||||||
| Options | Printer | |||||||
| Oxygen Generator (electricity only) | Eliminates Gas Bottles for up | |||||||
| to 5 analyzers. Plant Air Not | ||||||||
| Required. (For indoor/climate | ||||||||
| controlled environments only) | ||||||||
| (All performance specifications have been verified in a controlled laboratory environment. Actual field performance may vary with application. Measuring range and detection limits depend on the method, injection volume, vessel purity, chemicals and gases used, and the qualification of the operators.) | ||||||||
| Footnote 1 | ||||||||
| Conductivity vs. NDIR Interferences Chart | ||||||||
| Reliability of TOC Results in ULTRAPURE WATER ANALYSIS | ||||||||