| FALCONFAST - Calidus microGC :2012-142 | 1 |
| Calidus micro GC ; Faster, Smaller, Smarter, Easier, Greenier | 2 |
| Falcon Analytical Introduces the Calidus microGC : Faste, Smalle, Smarter, Easier and Greener the Traditional GCs | 3 |
| Calidus Specifications | 5 |
| Why Falcon . . . Why Calidus ? | 6 |
| Calidus GC Details - MODELS | 8 |
| Calidus - the Modular micro GC | 9 |
| GC Models : 101, 101HT, 201, 301, CS | 10 |
| some DETAIL . . . | 22-23 |
| Not Just for Simulated Distillation : Broadly Applicable FAST GC | 22-23 |
| What would the requirements be for an Ultra-Compact, Fast GC with Broad Commercial Utility and Acceptance? | 24-25 |
| Specifics | 26-27 |
| THE Falcon Approach ! | 28-29 |
| Speed + Modularity + Form Factor | 30-31 |
| Calidus: the Modular, Ultra-Compact GC | 32-33 |
| Separation & Detector HW Specifications | 34-35 |
| Not Just for Simulated Distillation: Broadly Applicable Fast GC | 22-23 |
| Gases & Extended Natural Gas | 36-37 |
| Middle Distillate & Petrochemicals Speciation | 38-39 |
| Example Chromatography | 40-41 |
| But What about Simulated Distillation? | 46-47 |
| Standard GC(40minutes) versus FAST GC(84Seconds) | 48-49 |
| Proof ! Certificate of analysis Consensus | 52-53 |
| ASTM D2887 Packed vs FAST GC | 54-55 |
| Calidus 101-HT Results Compared to Consensus Values Reported by Certificate of Analysis | 62-63 |
| Absolute Values of Difference from the Consensus Values | 64-65 |
| What about Repeatability | 66-67 |
| Refinery Plant Lab Results: Reference Gas Oil, 15 Replicates | 68-69 |
| Aplication Range : Examples | 70-71 |
| Targetted Signal Enhancement (TSE) | 214-215 |
| What's the Problem ? | 216-217 |
| What is TSE | 220-221 |
| TSE Background | 222-223 |
| For On-line Use | 224-225 |
| TSE Design | 228-229 |
| GC/TSE Oven Schematic | 232-233 |
| TSE Applications : Benzene, c4 HCs, C2s, MeOH, Water, CO2, CO, MeCl CycloP VinylCl | 234-235 |
| TSE More Capabilities | 254-255 |
| TSE Precision | 256-257 |
| TSE Linearity | 258-259 |
| TSE Performance | 260-261 |
| TSE Shortcomings | 262-263 |
| Summary : Vortex-Driven TSE | 264-265 |
| Rethinking Process GC | 158-159 |
| Panel Discussion Topic: What will processGC look like in 2020? | 160-161 |
| Projected World Energy Supplies | 162-163 |
| Application Coverage byGas Chromatography | 166-167 |
| Process GC Design Considerations | 168-169 |
| Speed of Analysis | 170-171 |
| Application Coverage | 172-173 |
| Form Factor | 174-175 |
| Speed + Applications + Form Factor | 178-179 |
| A GC Must Still Make Measurements | 180-181 |
| Old School vs. New Thinking | 184-185 |
| Situation Analysis | 186-187 |
| At-Line NeSSI microGC Cart | 194-195 |
| Process GC Design Considerations | 198-199 |
| Cost Considerations | 200-201 |
| Old School : Agilent 6890 : Blky/ Cumbersome/ High Watts | 202-203 |
| New Thinking:Falcon Analytical : Small / compact High Speed / Low Energy | 204-205 |
| Greener Analysis | 206-207 |
| The Real World | 208-209 |
| Half way to 2020! New GC thinking? | 210-211 |
| Questiions? | 212-213 |
| Calidus Models2012.pdf | 8 |
| Calidus ultraFAST GC from Falcon Analytical | 8 |
| Caliduc - the Modular xxxmicroxxx ultraFAST GC | 9 |
| Model Summary : 101, 101HT, 201, 201, 301, CS | 10 |
| CALIDUS (tm) 101 micro Gas Chromatograph GC | 11 |
| CALIDUS 101 HT micro Gas Chromatograph | 13 |
| CALIDUS 201 micro Gas Chromatograph | 15 |
| CALIDUS 301 micro Gas Chromatograph | 17 |
| CALIDUS CS micro Gas Chromatograph | 19 |