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2011 Restek PRESENTATIONS -OVERVIEW 308p |
2 |
WHAT’S NEW? GC Columns GC Accessories Sample Preparation Restek 2011 |
4-5 |
Rxi-624Sil ms (fused silica) |
6-7 |
Rxi-1HT (fused silica) |
8-9 |
Rtx-Volatile Amine Column (fused silica) |
10-11 |
Rtx-DHA Columns (fused silica) |
12-13 |
Rt-Alumina Bond/CFC Columns(fused silica PLOT) |
14-15 |
Siltek-stainless steel PLOT Columns |
16-17 |
Siltek-stainless steel PLOT Columns |
18-19 |
150 micron ID Columns |
20-21 |
Rxi-1ms |
22-23 |
Rtx-200 |
24-25 |
New SKY Inlet Liners |
26-27 |
Quechers Extraction Salts |
28-29 |
Centrifuge 0 foe Quechers |
30-31 |
Use a small bore capillary |
32-33 |
Influence of column diameter on separation |
34-35 |
Influence of diameter on analysis time * |
36-37 |
Practical Challenges with smaller bore columns.. |
38-39 |
Scope of implementation of 0.15-0.18 mm ID columns |
42-43 |
NEW Method vs Old |
44-45 |
APP - Perfume in 1/2 the time : 100s peaks in 12 minutes |
46-47 |
2011-Restek-SamplePrep-Overview_1-32.pdf |
48-49 |
Sample Preparation at 2011 Restek Overview |
48-49 |
Outline |
50-51 |
What is Sample Preparation? |
52-53 |
The Sample Prep Market |
54-55 |
We want a sample that is: |
56-57 |
Environmental Market |
58-59 |
Solid Phase Extraction (SPE) Concepts |
60-61 |
Why SPE? |
62-63 |
SPE Tubes |
64-65 |
SPE Disks |
66-67 |
More SPE Products |
68-69 |
Pressurized Fluid Extraction(PFE) |
70-71 |
ASE®Products |
72-73 |
Environmental Glassware NEW |
74-75 |
Environmental Positioning |
76-77 |
Environmental Developments |
78-79 |
Food Safety Market |
80-81 |
Restek’s Total Solution for Food Safety |
82-83 |
Food Safety Expertise |
84-85 |
Universal Products |
86-87 |
Filtration |
88-89 |
Syringe Filters |
90-91 |
Thomson Filter Vials |
92-93 |
Technical Glassware |
94-95 |
2011-Restek-PharmaProducts-Overview_1-48.pdf |
108-109 |
Pharmaceutical Restek Chromatography Products 2011 Overview |
108-109 |
Outline |
110-111 |
Liquid Chromatography Consumables Market by Geography |
112-113 |
Liquid Chromatography Consumables Market by Industry |
114-115 |
Market Assessment - HPLC Demandt |
116-117 |
Technology Focus - Mass Spectrometry |
118-119 |
Determining Column Format |
122-123 |
Restek High Purity LC Columns Lines |
126-127 |
Restek Column Lines |
128-129 |
Particle Size to Instrument Fit Chart |
130-131 |
Capillary Columns Available |
132-133 |
Restek Reverse Phase Column Listing |
134-135 |
Multi Modal Analysis of 4-MeImidazoles (4MI or 4-MEI) |
138-139 |
HILIC Retention |
140-141 |
Reverse Normal Phase / HILIC Column Listing |
142-143 |
Restek UHPLC |
144-145 |
Pinnacle DB UHPLC Columns |
146-147 |
Proper Filtration for uHPLC |
148-149 |
Product Focus |
150-151 |
Restek Product Positioning |
152-153 |
Competitive Column Offerings |
154-155 |
Selectivity on any Insteument Format |
156-157 |
The Value of Selectivity |
158-159 |
USLC Phases have the highest range of selectivity for RPC |
160-161 |
Great for Column Switching |
162-163 |
Biphenyl Advantage |
164-165 |
Viva -Wide-Pore Silica for Bio Pharma |
166-167 |
BJH Desorption dV/dDPore Volume |
168-169 |
Viva Competitive Comparison |
170-171 |
Guard Columns - a necessity |
176-177 |
Guard Column Options |
178-179 |
Other LC interesting products |
180-181 |
GC in Pharmaceutical Market |
182-183 |
Rxi-3-in-1 Technology |
184-185 |
Balanced Inertness |
186-187 |
Highest Thermal Stability of its Class |
190-191 |
Rxi Essentials for Pharma Use |
192-193 |
Rxi Updated Brochure |
194-195 |
USP<467> Standards |
196-197 |
GC Column Mix for Pharma Method Development |
200-201 |
Summary |
202-203 |
2011-RestekPetro-Applications-Overview_1-37.pdf |
204 |
2011 Restek Petrochemical APPLICATIONS - Overview |
204 |
Petrochemical |
204 |
Who are the End-users |
204 |
Products analyzed in Segment |
204 |
Outline |
205 |
Refinery Process Map |
205 |
What does every refinery do? |
205 |
Simulated Distillation |
206 |
Challenges |
206 |
Needs for Accurate Simulated Distillation Analysis |
206 |
Sim Dist with fused silica: Big Problem area.. |
207 |
Optimize strength/robustness of capillaryApplication of MXT Metal capillary tubing |
207 |
MXT Tubing is Extremely Strong |
207 |
New, easy accessible column cage |
208 |
Simulated Distillation of Crude oil |
208 |
ASTM Spec for High Temperature Sim Dist |
208 |
Resolution new MXT-1HT Sim Dist |
209 |
Comparison of Resolution values |
209 |
Resolution values |
209 |
Column Stability / Lifetime |
210 |
Comparison of Bleed values |
210 |
Performance-ASTM D7169 |
210 |
C10-C100 calibration standard |
211 |
Calibration curve C10-C100 |
211 |
Column Cutting |
211 |
MXT Column Cutting |
212 |
Carrier gas considerations : Avoid introduction of oxidizers |
212 |
Impact of Oxygen/ Moisture |
212 |
Carrier Gas purification |
213 |
Simulated Distillation of Gasoline Range Hydrocarbons |
213 |
D2887 Used for: |
213 |
Gasoline Range Sim Dist |
214 |
D-2887 Sim Dist |
214 |
Restek New Generation MXT Sim Dist Columns |
214 |
Product information for MXT Sim Dist |
215 |
Analysis: Gasoline Detailed Hydrocarbon Analysis (DHA) D6730 |
216 |
Biggest Challenges for Customers Running ASTM D6730 |
216 |
Why do the Refiners Run DHA Analysis? |
216 |
Important Quality Parameter for DHA Analysis |
217 |
Elution of Alcohols on the DHA-type Columns ASTM Method D6730 |
217 |
Impact of a Tailing Alcohol Peak |
217 |
ASTM D 6730 Specifications |
218 |
Standard ASTM-Specs Test for all Restek Rtx-DHA 100 Columns |
218 |
Specs Data is Listed on each Rtx-DHA-100 Test Report |
218 |
Reproducibility of Rtx-DHA-100 Columns |
219 |
ASTM D 6730 Requires a “tuned”Column… |
219 |
ASTM 6730 DHA Evaluation Mix |
220 |
Focusing on Critical Areas of Resolution |
220 |
Gasoline Analysis Following ASTM D6730, Helium as carrier gas |
220 |
There will be always a wish from customers to SPEED UP the analysis |
221 |
Using Helium and a different program |
221 |
Speeding up the Application using HYDROGEN Carrier Gas |
222 |
Fast DHA Analysis using Hydrogen… |
222 |
Fast DHA using Hydrogen |
222 |
Hydrogen : Safety Issues |
223 |
Rtx-DHA Columns for Other ASTM Methods |
223 |
Biggest Challenges for customers running ASTM D6730 |
223 |
Customer referral |
224 |
Product information Rtx DHA columns |
224 |
What does every refinery do? : Benzene / Toluene/ ethanol in gasoline |
224 |
Benzene / Toluene/ ethanol in gasoline |
225 |
Modified ASTM D3606 Method using the D3606 Column Set |
225 |
New D3606 Method |
225 |
Repeatability of 4 Injections of Wallmart Gasoline |
226 |
Product Information for D3606 |
226 |
What does every refinery do? : Refinery gases |
226 |
Refinery Gases |
227 |
Restek PLOT Columns Versus Competitor Columns |
227 |
PLOT Layer is often deposited as non homogeneous film |
228 |
This was one of the reasons why we could replace Varian and Agilent PLOT columns for: |
228 |
Transportation |
228 |
Refinery Gas Analysis : AluminaBOND |
229 |
Difference Between Na2SO4and KCl |
230 |
C1-C5 Hydrocarbons Rt-Alumina BOND |
229 |
Difference Between Na2SO4 and KCl |
230 |
ASTM D2163 C1-C5 Hydrocarbons |
230 |
Permanent Gases on Rt-MSieve 5A |
230 |
Rt-Q-BOND Peak Shape for CO2 and C2 Isomers |
231 |
Permanent Gases, CO and CO2 on ShinCarbon Micropacked Column.. |
231 |
Product Information for PLOT |
232 |
Additional UNIQUE Restek Development |
232 |
MXT-MSieve 5A |
232 |
Molecular Sieve 5A in MXT |
233 |
Zooming into some details |
233 |
MXT-Alumina BOND(Na2SO4 deactivation) |
233 |
Refinery gas sample |
234 |
Acetylene and Propadiene |
234 |
MXT Q-BOND |
235 |
Solvent Test on MXT-Q-BOND |
235 |
Peak Shape of Alcohols |
234 |
Peak Shape for CO2and C2Isomers |
235 |
Product information MXT PLOT |
236 |
What does every refinery do? : Sulfur analysis |
236 |
Reference |
236 |
All parts in the GC system that come in contact with sulfur compounds can be deactivated by the Siltek technology... |
237 |
Sulfur Gases at 19 ppb |
237 |
Most Important Issue for Trace Sulfur Analysis : System Inertness |
237 |
Rt-XL Sulfur : Sulfurs and Hydrocarbon Analysis of Natural Gas / Refinery Gas at 50 ppb level |
238 |
Untitled |
239 |
Trace H2S and COS in Ethylene/Propylene using Selective Detection |
238 |
Product information Sulfur |
239 |
What does every refinery do? Oxygenates |
239 |
Oxygenates in Gasoline Analyses: ASTM D4815 |
239 |
Product Information for Oxygenates |
240 |
Food Safety |
242-243 |
Consumer Pressure - melamine, bisphenol A, mycotoxins, vet drugs, acrylamide, pesticides, PAHs, Dioxins, 4MEI |
246-247 |
Global Economy |
256-257 |
Some statistics |
258-259 |
What challenges arise for the chemist > Trace analysis |
260-261 |
Function or Chemical Class |
262-263 |
Pesticide Residues in Foods |
266-267 |
Veterinary Drugs |
286-287 |
QuECh-ingf or Beginners |
298-299 |
What is QuEChERS? |
300-301 |
Complete Line of QuEChERS Products |
320-321 |
Other Applications for QuEChERS |
330-331 |
QuEChERS and Cartridge SPE Cleanup for Pesticides in Dietary Cleanup for Pesticides in Dietary Supplements |
340-341 |
Sample Preparation of Cannabinoids in Urine Using the QuEChERS Method |
342-343 |
Restek Technical Information Available at restek.comFood, Flavors, and Fragrances |
348-349 |
Chlorinated Dioxins and Furans in FoodRestek GC Selectivity Solutions |
350-351 |
Dioxin contamination scandal hits Belgium |
362-363 |
Polychlorinated Biphenyls in Food |
364-365 |
GC Selectivity QuestionsPolycyclic Aromatic Hydrocarbons |
372-373 |
HPLC of PAHs |
386-387 |
Restek UHPLC of PAHs –Very Fast Run |
390-391 |
Summary of Food Safety |
392-393 |
Other Topics for Food Safety |
396-397 |
Environmental Program |
404-405 |
Outline•Semivolatile organic compounds•Volatile organic compounds•Pesticide •Air sampling |
406-407 |
Semivolatile Overview |
408-409 |
SemivolatileAnalysisRxi-5Sil MS |
432-433 |
Rxi-5ms and Rxi-5Sil MS columns are not the same |
436-437 |
RXi - Value to Customer |
438-439 |
SemivolatileStandards |
440-441 |
Injection Ports |
442-443 |
Sample Extraction for Semi-Volatiles |
450-451 |
Polycyclic Aromatic Hydrocarbons (PAHs) |
452-453 |
General Chromatography Supplies |
458-459 |
Volatile Analysis•How laboratory is set-up•Analysis of volatile compounds–Rtx-VMS–Rxi-624Sil MS•Instrument maintenance |
460-461 |
Volatiles Overview |
462-463 |
Analysis for Volatiles GC Columns |
468-469 |
Rtx-VMS advantages over other phases |
478-479 |
624 Phase Disadvantage |
480-481 |
Standards for Volatiles |
494-495 |
Sample Preparation for Volatiles |
496-497 |
General Chromatography Supplies |
500-501 |
Pesticide Analysis |
506-507 |
Chlorinated Pesticide Overview |
506-507 |
PesticideAnalysis |
504-505 |
Rxi-5Sil MS GC Column Technology |
512-513 |
Injection Ports |
520-521 |
Variation of Inlet Liners |
524-525 |
For Most Inert Inlet System |
530-531 |
Consumable Products for Pesticides |
532-533 |
Sample Extraction for Pesticides |
534-535 |
SPE Products for Specific Compounds |
536-537 |
Extract Clean-up for Pesticides |
538-539 |
Reference Materials for Pesticides |
540-541 |
General Chromatography Supplies |
544-545 |
AIR SAMPLING |
548-549 |
Air Monitoring Overview |
548-549 |
Sample Collection Preparation(Canisters) |
554-555 |
Passive Sampling w/Canisters |
556-557 |
Sample Collection -Canisters |
558-559 |
Sample Collection –CanistersTimer |
560-561 |
Sample Preparation -Canisters |
562-563 |
Analysis |
564-565 |
Sample Collection –Mini Canisters |
566-567 |
Sample Collection Preparation(Thermal Desorption Tubes) |
568-569 |
Sample Collection –TDU Tubes |
570-571 |
Sample Collection Preparation(Gas Sampling Bags) |
572-573 |
SemivolatileAir Sampling(XAD2 & PUFs) |
574-575 |
Other Air Sampling Products |
576-577 |
Marketing Literature |
578-579 |
Sample Process for Air Analysis |
550-551 |
AIR SAMPLING |
546-547 |