DOCSLIB.ORG

Laboratory Equipment

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Laboratory Equipment ITB-HTOC-77684-13-16153 (MS) Lot A-7: Laboratory Equipment SECTION V – SCHEDULE OF REQUIREMENTS Schedule 3: Technical Specifications for Lot A-7 Lot composition: Tender Additional Code Equipment Quantity quantity* A-7.01 Analyzer, CD4 1 0 A-7.02 Analyzers, Laboratory, Bloodgas/pH/Electrolyte 1 0 A-7.03 Analyzers, Laboratory, Chemistry 1 0 A-7.04 Analyzers, Laboratory, Hematology 1 0 A-7.05 Centrifuge, chemistry 1 0 A-7.06 Centrifuge, microbiology 1 0 A-7.07 Centrifuge, microhematocrit 1 0 A-7.08 Clinical rotator 2 0 A-7.09 Clock, with humidity and Temp 3 4 A-7.10 Coagulation instrument 1 0 A-7.11 Dryer, vertical 2 0 A-7.12 Hot plate 1 0 A-7.13 Incinerator, bacteria 2 0 A-7.14 Incubator 1 0 A-7.15 Laboratory Instrument Set 1 0 A-7.16 Mechanical Pipette large 2 0 A-7.17 Mechanical Pipette small 2 0 A-7.18 Microscope 4 0 A-7.19 Microscope, fluorescent 2 0 A-7.20 Pipet aid 2 0 A-7.21 Refrigerators, laboratory 1 1 A-7.22 Refrigerators, laboratory with freezer 1 0 A-7.23 Refrigerators, Laboratory, big size 1 0 A-7.24 Refrigerators, Laboratory, Vaccine Conservation 5 0 A-7.25 Slide holders, large 2 0 SECTION V – SCHEDULE OF REQUIREMENTS Schedule 3: Technical Specifications Page 1 of 51 ITB-HTOC-77684-13-16153(MS) Lot A-7: Laboratory Equipment A-7.26 Slide holders, small 2 0 A-7.27 Spectrophotometer: Semi-automated 1 0 A-7.28 Stands, micropipette 2 0 A-7.29 Stands, pipette 2 0 A-7.30 Sterilizer Unit, Dry 2 1 A-7.31 Tray and rack, slide staining 2 0 A-7.32 Tray, blood collection 2 0 A-7.33 Turbidity meter 2 0 A-7.34 Ventilated workstation 1 0 A-7.35 Vortex mixer 3 0 A-7.36 Warmer, Blood Tubes 5 0 A-7.37 Watch, stop, mechanical 2 0 A-7.38 Water bath 2 0 *Additional quantity that may be required during the extended Bid validity according with the Tender document section: BDS 13.1. Each equipment shall be CE marked, 98/79/EEC, or FDA approved for medical laboratory use. The Bidders or each Manufacturer shall be ISO9001 Certified. Copy of the above mentioned CE mark, 98/79/EEC, or FDA approval and ISO9001 certifications shall be included in the offer. Some of the following specifications are composed by a text and a picture, both are describing the item. In case of discordance text prevails on picture. The pictures have to be intended as representations of the technological level, the design quality and the construction specifications of the items and not referring to specific commercial brands and models. An offered item shall be compliant to the text technical specifications and to the technological level, the design quality and the construction specifications displayed in the pictures. In some case a Reference Producer and Model have been indicated to better define the specifications. Texts and pictures prevail on Reference Model. Any model technically equivalent to the Reference one will be accepted. The above, quantities are indicative and not exhaustive requirements. SECTION V – SCHEDULE OF REQUIREMENTS Schedule 3: Technical Specifications Page 2 of 51 ITB-HTOC-77684-13-16153(MS) Lot A-7: Laboratory Equipment Item A-7.01 Analyzer, CD4 Flow cytometer able to provide absolute and percentage results of CD4 T lymphocytes to stage the progression of HIV/AIDS Electrical characteristics 1) A 120V, 60Hz mono-phase electrical source with line connection plug NEMA 5-15 type. 2) Protections against over-voltage and over-current line conditions. 3) Compliance with applicable Haitian standards and regulations. 4) Equipment provided with an adequate Uninterruptible Power Supply (UPS) system with not less than 30 minutes of back-up. Operational characteristics 5) LCD/TFT screen. 6) Sample no greater than 50 μL. 7) Convection or water cooled laser technology. 8) Measure of CD4, absolute and percentage, CD3 and CD8 within at least the following ranges: a) CD4+: 100 to 2,000 cells/μL; b) CD3+: 200 to 3,000 cells/μL. c) CD8+: 200 to 1,500 cells/μL; 9) CD4 counting precision with variation no greater than 10% for sample with CD4 > 200 cells/μL. 10) Fluid reservoir. 11) Measuring time not greater than 4 minutes. 12) Mean time between 2 analyses no greater than 3 minutes. 13) Capacity of at least 20 samples/hour. Additional consumables and accessories to be included in the bid price; quote each separately: 14) Electronic pipette. 15) Built in or external thermal printer. 16) Sample preparation stand. 17) CD4 Reagents for at least 1000 tests with at least 4 months shelf life. 18) CD3 reagents for at least 500 tests with at least 4 months shelf life. 19) At least 20 control samples for each kind. Reference Producer and Model: BD – Facscount. SECTION V – SCHEDULE OF REQUIREMENTS Schedule 3: Technical Specifications Page 3 of 51 ITB-HTOC-77684-13-16153(MS) Lot A-7: Laboratory Equipment Item A-7.02 Analyzers, Laboratory, Bloodgas/pH/Electrolyte Analyzer to measure blood gas, electrolytes, PH, the, Oxygen saturation and Hct in human blood and dialysis solutions with acetate and bicarbonate content. Electrical characteristics 1) A 120V, 60Hz mono-phase electrical source with line connection plug NEMA 5-15 type 2) Protections against over-voltage and over-current line conditions 3) Compliance with applicable Haitian standards and regulations. 4) Uninterruptible Power Supply (UPS) system with not less than 20 minutes of back-up. Operational characteristics 1) Included trolley with brakes, able to carry the analyzer and his UPS. 2) All software in French language. 3) Relevant diagnosis of acid base status by means of printer. 4) Working temperature: 37°C. 5) Thermal printer and alphanumeric display. 6) Productivity of at least 50 samples/hour 7) Fully automatic, auto-calibrating, no sample pre-treatment, auto-sampling, auto-diluting, temperature controlled. 8) Barcode reader. Required parameters and required minimum measurement ranges 9) PO2, range 0 to 800 mm Hg. 10) PCO2, range 4 to 200 mm Hg. 11) PH, range 6 to 8. 12) Na, range 20 to 250 mmol/lt. 13) K+, range 0 to 20 mmol/lt. 14) Cl, range 20 to 250 mmol/lt. 15) Ca2+, range 0 to 4 mmol/lt. 16) Hct, range 10 to 80%. 17) tHb, Whole blood range 0 to 25g/dl. 18) SO2, Whole blood range 50 to 100%. Additional consumables and accessories to be included in the bid price; quote each separately: 19) Built in or external thermal printer. 20) Sample preparation stand. 21) At least 20 control samples for each kind. 22) Set of reagents and consumables to completely carry out each one of the analysis above listed for at least 200 times (complete analyses) including the replacement electrodes if bundled with at least 4 months shelf life. SECTION V – SCHEDULE OF REQUIREMENTS Schedule 3: Technical Specifications Page 4 of 51 ITB-HTOC-77684-13-16153(MS) Lot A-7: Laboratory Equipment Item A-7.03 Analyzers, Laboratory, Chemistry Automatic quantitative biochemistry analyzer with potentiometric (direct ISE), colorimetric, immunometric and turbidimetric assays. Electrical characteristics 1) A 120V, 60Hz mono-phase electrical source with line connection plug NEMA 5-15 type 2) Protections against over-voltage and over-current line conditions 3) Compliance with applicable Haitian standards and regulations. 4) Uninterruptible Power Supply (UPS) system with not less than 30 minutes of back-up. Operational characteristics 5) Fully automatic, auto-calibrating, no sample pre-treatment, auto-sampling, auto-diluting, with incubator. 6) Built-in or external display and workstation or control panel; input/output devices and data import/export capability in standard formats, for data management and transfer. 7) Integrated or external USB connected printer for complete patient data analysis, graphs and results printing in a standard clinical format. 8) Integrated barcode reader for both samples and reagents identification. 9) Equipment software control of maintenance operations. 10) Patient data, results of the analysis, calibrations and Quality Control (QC) results storage capacity for at least 10.000 patient samples. 11) Automatic or on-request results printouts. 12) On-line help always accessible from the user-interface. 13) Pre-sets and user-defined procedures and parameters sets. 14) Measurement principles: Potentiometric (direct ISE), Colorimetric/Rate, Immuno-rate, Turbidimetric. 15) Electrode shelf life for potentiometric measurement not less than 25000 samples. 16) Coagula detection system. 17) Automatic linear, non-linear or bias calibrations with automatic calibration repeat for bias calibration and equipment stably calibrated for not less than 14 continuous days. 18) The equipment should allow urgent analysis without interrupting the standard routine analysis. 19) Throughput not less than 250 tests/hour for both ISE and photometric methods. 20) Total throughput: of at least 400 tests/hour; complete ISE set in less than 30 min. 21) At least 30 photometric test methodologies available. 22) At least kinetic and end-point measurement modes. 23) Spectrum analysis range not smaller than 340 to 750 nm. 24) Kinetic measurement in not less than 12 points in a time range not smaller than 20 seconds to 59 minutes. 25) Pre aligned quartz halogen light source with linear absorbance range not smaller 0 to 2.5 Abs, resolution of at least 0.0001, accuracy at least of +/- 2% and reproducibility with SD not greater than 0.005 at 2 Abs. 26) The sample handler must allow the both manual and automatic samples recognition. 27) Stand-by mode to minimize reagents consumption. 28) Distilled Water Consumption less than 20 lt/hour.
Load more

Recommended publications
  • An Engineering Study of the Design, Integration and Control of Antibody Fragment Production Processes
    AN ENGINEERING STUDY OF THE DESIGN, INTEGRATION AND CONTROL OF ANTIBODY FRAGMENT PRODUCTION PROCESSES A thesis submitted to the University of London for the degree of Doctor of Philosophy by Leigh Caroline Bowering June 2000 Department o f Biochemical Engineering University College London Torrington Place London WC1E 7JE l To Mum and Dad 2 ACKNOWLEDGEMENTS I would like to thank Dr Nigel Titchener-Hooker and Professor Peter Dunnill for their supervision and support during this project. Special thanks must also go to Dr Neil Weir at Celltech Chiroscience Limited for his invaluable guidance and enthusiasm throughout the course of this research. Much of this work would not have been possible without the technical support of Billy Doyle, Ian Buchanan and Clive Osborne; their help has been greatly appreciated. I would like to extend my gratitude to the numerous researchers at University College London who have provided intellectual input and experimental support. In particular I would like to acknowledge Nick Murrell for his help with the large-scale fermentation and centrifugation experiments, Nik Willoughby for keeping me company during the numerous overnight fermentations and advising on expanded bed operation, and John Maybury for his input into the scale-down and modelling of the extraction and centrifugation processes. Special thanks must go to the many friends I made during my time in London, especially Natalie and Helen for keeping me smiling, my colleagues on the first floor for the constant supply of tea, coffee and cakes, and to Layth for providing the support and encouragement I needed for the successful completion of this thesis.
    [Show full text]
  • Drucker Diagnostics International Product Catalog
    Drucker Diagnostics International Product Catalog druckerdiagnostics.com +1-814-692-7661 © Copyright Drucker Diagnostics, 2017. All rights reserved. QBC and STAR are trademarks of Drucker Diagnostics. Form 1007 Rev. A Centrifuge Buying Guide STAT Centrifuges Innovative Solutions for a healthier world Digital Display Routine Centrifuges Since 1932, Drucker Diagnostics has led the way in quality, innovation, and reliability. Set & Lock Routine Centrifuges Whether it’s the first horizontal rotor or the world’s only dry hematology system, Drucker looks beyond the current standard and toward the ideal best practice. From our headquarters in Mobile Centrifuges Pennsylvania, we design, build, and support our product lines. You’ll find Drucker around the globe. Our centrifuges are trusted by reference laboratories, hospitals, point of care facilities, and Fixed-Angle Centrifuges more. Our dry hematology products can be found on cruise ships, in local clinics, on military bases, and wherever else remote care is required. Our sample protection lockboxes and SampleSafeTM Lockboxes fluorescence microscopy tools offer specimen protection and powerful diagnosis tools where they are needed most. Dry Hematology Fluorescence Microscopy Centrifuge Buying Guide Centrifuge Buying Guide Sodium Up to 17 Plasma Max Up to 17 Citrate PRP Mobile Max Digital x 75 or Model STAT Serum Urine G-Force Settings x 125 mm 50 mL Voltage (Coag) PRF Care RPM Display 100 mm (Chemistry) RCF or 15 mL PPP or 10 mL Cycle Time (Minutes) 642B* 10 15 3400 1600 One 6 115 VAC 642E
    [Show full text]
  • Modifications of Spectrophotometric Methods for Antioxidative Vitamins Determination Convenient in Analytic Practice *
    M PO RU LO IA N T O N R E U I M C S ACTA Acta Sci. Pol., Technol. Aliment. 6(3) 2007, 17-28 MODIFICATIONS OF SPECTROPHOTOMETRIC METHODS FOR ANTIOXIDATIVE VITAMINS DETERMINATION CONVENIENT IN ANALYTIC PRACTICE * Maciej Rutkowski, Krzysztof Grzegorczyk Medical University of Łód ź Abstract. Although there are numerous methods for quantitative determination of antioxida- tive vitamins: C, E, and A, there are no methods favourable for the broadly understood ana- lytic practice – they have various faults and limitations or require expensive apparatus. Therefore, we have elaborated modifications of valuable spectrophotometric methods for de- termination each of those vitamins, which originally could not be applied for laboratory practice from various regards. They are based on: for vitamin C – colour reaction with peri- odically prepared phosphotungstate reagent; for vitamin E – colour reaction with batophe- nanthroline, FeCl 3 and H 3PO 4; for vitamin A – spectrophotometric measurement of extracts of tested samples. Control tests showed complete correctness of analytic parameters ob- tained with those modifications with preservation of advantages of the original methods. Therefore they can be successfully implemented to the routine clinical analyses’. The elabo- rated modifications can also be used for determination of the a/m vitamins in foodstuffs, for example: in juices, milk and homogenates or extracts of solid food. Key words: antioxidative vitamins, spectrophotometry, food, biological samples INTRODUCTION In nutritional sciences and medicine, there is much interest in the analytics of vita- mins C, E and A because, besides having vitamin activity, they are also characterized by antioxidative action and are therefore defined as antioxidative vitamins.
    [Show full text]
  • Laboratory Outreach Centrifuges (LTR27054)
    Blanchard Valley Health System Blanchard Valley Hospital Laboratory Services 1900 South Main Street, Findlay, OH 45840 Laboratory Outreach Centrifuges (LTR27054) Last Approved By: Wonder, Teresa (Electronic Signature Timestamp: 8/19/2015 Revision: 2.00 8:34:48 AM) Budke, Heidi (Electronic Signature Timestamp: 8/18/2015 10:19:53 AM) Last Updated Time: 8/19/2015 8:34:48 AM Last Approved Time: 8/19/2015 8:34:48 AM Attention: Printed copies MAY not be the most current information. Please consult the Lab QMS for the current version. Laboratory Outreach Centrifuge Procedure Principle: The pre-analytic phase of laboratory testing consists of: specimen collection, processing, handling, transportation, and physiological issues which all have an important impact on the integrity of laboratory test results. In order to maintain the highest specimen integrity, a centrifuge may be made available for use prior to specimen pick up or drop off for testing at Blanchard Valley Hospital Laboratory Services. General purpose centrifuges place a centrifugal force upon fluids to separate out cellular and/or other components. The centrifugal forces increase with increasing speed and with the radial arm length. General purpose centrifuges are designed to obtain higher centrifugal forces by increasing the speed rather than increasing the radius, which is usually fixed. Components of a general purpose centrifuge include the chamber, a cover, centrifuge head, the shaft and the rotor, and the motor/drive assembly. The chamber encloses the head and the centrifuge tubes. The motor and drive assembly impart the force to the shaft and rotor to create the desired centrifugal force.
    [Show full text]
  • Laboratory Centrifuge Operation Instructions Procedure for Spills
    Laboratory Centrifuge Operation Instructions 1. Make sure centrifuge is plugged in. 2. Always wear gloves when handling specimens. 3. Place covered/ capped test tube specimens into tube holders. Make sure specimens are all the way into holders. 4. Balance the load. Opposing tube holder must be identical and contain equally weighted samples. If an odd number of samples is to be spun, fill a tube with water to match with weight of the unpaired sample and place it across from this sample. 5. Close lid and secure latch. 6. Turn timer past 15 minutes then set to 10 minutes. 7. Once the timer reaches zero, power will be cut to the motor and the rotor will coast to a stop. Do not open the lid until the rotor has come to a complete stop. 8. Inspect samples for proper separation. If specimen did not separate properly repeat steps 2-8. If specimens still not separated properly call MNM Laboratory at 231.487.4219 for additional instructions. Procedure for Spills inside a Centrifuge 1. Turn off the centrifuge immediately if you hear a tube break and do not open for 10 minutes. If you discover a broken tube after the centrifuge has stopped, close the lid and wait 10 minutes. 2. Put on personal protective equipment (gloves, lab coat, face protection). 3. Cover the contaminated inner surfaces of the centrifuge with paper towels and soak with disinfectant. 4. Allow 10 minute disinfectant contact time. 5. Use forceps to remove all pieces of broken glass. Place broken glass inside biohazard sharps container.
    [Show full text]
  • Cellspin® II / Cellspin® IIR Cytocentrifuge
    Instruction manual Cellspin® II / Cellspin® IIR Cytocentrifuge Man CS2/CS2R 01.2017 EN Contact: THARMAC® GmbH Hasselborner Straße 19-21 35647 Waldsolms Germany Fon: +49-(0)6085 - 98 99 10 Fax: +49-(0)6085 - 98 99 119 Mail: [email protected] www.tharmac.de THARMAC® GmbH Borsigstraße 7A 65205 Wiesbaden Germany Fon: +49-(0)6122 - 588 97 33 Fax: +49-(0)6122 - 588 97 36 Mail: [email protected] www.tharmac.de Cellspin®, Cellfunnel® and TPX-Funnel®, ECOfunnel® and GynoPrep® are registered trademarks. THARMAC® GmbH - Cellspin® II/IIR - Instruction manual Table of contents 1 Use according to specification ......................................................................................................... 5 2 Remaining risks ..................................................................................................................................... 5 3 Technical specifications ..................................................................................................................... 5 4 Notes on safety .................................................................................................................................... 7 5 Symbol meanings ................................................................................................................................ 9 6 Delivery checklist ................................................................................................................................. 9 7 Unpacking the centrifuge .................................................................................................................
    [Show full text]
  • Centrifuge Manual
    Reliability in Laboratory Centrifuges Since 1932 Operator’s Manual Model 614B • Laboratory Centrifuge P/N 7711001 Rev. C Table of Contents WARNING: For the safety of both the operator and service personnel, care should be taken when using this centrifuge if NOTES: Model Description pg. 2 handling substances that are known to be Supplied Equipment pg. 2 toxic, radioactive or contaminated with Features pg. 3 pathogenic microorganisms. When Risk Specifications pg. 3 Group II materials are used, (as identified in Setup Location and Procedure pg. 4 the World Health Organization “Laboratory Operation pg. 5 Bio–Safety Manual”), a Bio–Seal should be Rotor Removal and Installation pg. 5 employed. The Bio–Seal accessory for the Tube Holder Configurations pg. 6 model 614 tube holders is the non–aerosol Care and Preventative Maintenance pg. 7,8 shield cap, p/n 7713011. In the event that Safety pg. 8 materials of a higher risk group are being Calibration and Ground Testing pg. 8 used, more than one level of protection must Troubleshooting pg. 8 be provided. The use of flammable or ex- Replacement Parts pg. 9 plosive materials as well as those materials which have a vigorous chemical reaction is Available Accessories pg. 9 prohibited. For your safety and the durability Warranty pg. 10 of your machine, never transport or store centrifuge with tube holders inside machine. Model Description: The Model 614B is a continuous duty centrifuge designed for the small lab or doctor’s office for the purposes of separating laboratory fluids. The unit is controlled by a mechanical timer settable from 1 to 30 minutes.
    [Show full text]
  • 2 0 2 0 PRODUCT CATALOG Petroleum Testing Equipment
    2 0 2 0 PRODUCT CATALOG Petroleum Testing Equipment www.lk-ind.com | 713-926-2623 CENTRIFUGES Transport Centrifuge Series 3 TABLE OF CONTENTS Benchmark C Laboratory Centrifuge* 4 Benchmark S Laboratory Centrifuge 5 Melton Centrifuge Series 6 HEATERS Criterion Water Bath* 7 TradeMark Heater Series* 8 Melton Heater 9 Hydrometer Cylinder Heater 9 LP Gas Corrosion Test Cylinder Heater* 10 GLASSWARE Centrifuge Tube Viewer Stand 10 Centrifuge Tubes 11-12 Standard Hydrometers 13 Miller-Weber Thermometers (Mercury & Non-mercury) 14-15 Miller-Weber Calibration Services 16 ACCESSORIES Corrosion Test Cylinders 17 Gauging Accessories 18 Glassware Accessories 18 SECURITY SEALING DEVICES Swagelok Tubing Nut Sealing Device 19 Sight Glass Packing Sealing Device 20 Rosemount Transmitter Cover Sealing Device 21 Drilled SS Plug Sealing Device 22 OTHER OFFERINGS Hauler's Package 23 Laboratory Package 23 Maintenance & Service Offerings 24 APPENDICES Common Product Configurations 25 Common Replacement Parts List 27-28 Miller-Weber Product Information 29 Page. 2 *Available in Class I, Division 2 configurations www.lk-ind.com | 713-926-2623 Transport Centrifuge Series The Transport Series is designed for determining S&W (Sediment and Water) content on crude oil haulers, per API CENTRIFUGES MPMS Ch. 10.4 (withdrawn ASTM D96). There are heated or non-heated, as well as 2 or 4-place trunnion arm configurations. The Transport centrifuges are compatible with finger (A), pear-shaped (B) or short cone (D) style tubes. The Sulfur-in-Oil Test Prep Centrifuge (Transport 3100) is ideal for preparing samples for sulfur analysis, in compliance with ASTM 4294. Petroleum samples are spun to separate sediment and suspended particulates that skew sulfur content output in X-ray fluorescence spectrometry.
    [Show full text]
  • Human Long-Term Culture-Initiating Cell (LTC-IC) Assays
    i Human Long -Term Culture-Initiating Cell (LTC-IC) Assays STEMCELL TECHNOLOGIES INC.’S QUALITY MANAGEMENT SYSTEM IS CERTIFIED TO ISO 13485 MEDICAL DEVICE STANDARDS. FOR RESEARCH USE ONLY. NOT INTENDED FOR HUMAN OR ANIMAL DIAGNOSTIC OR THERAPEUTIC USES. TOLL FREE PHONE 1 800 667 0322 PHONE +1 604 877 0713 VERSION 3.1.0 [email protected] [email protected] FOR GLOBAL CONTACT DETAILS VISIT WWW.STEMCELL.COM DOCUMENT #29146 i Table of Contents 1.0 Introduction ........................................................................................................................................... 1 2.0 Glossary of Terms Used ....................................................................................................................... 2 3.0 Equipment and Materials Required ..................................................................................................... 3 3.1 Equipment ...........................................................................................................................................3 3.2 Materials .............................................................................................................................................3 3.3 Additional Materials and Reagents .....................................................................................................4 4.0 LTC-IC Assay Procedure Diagram ...................................................................................................... 5 5.0 Bulk Culture LTC-IC Assay Procedure Diagram ...............................................................................
    [Show full text]
  • Edible Colors: Beer's Law and Food Dyes1
    Experiment 37A Spec20 FV 9/30/16 EDIBLE COLORS: BEER’S LAW AND FOOD DYES1 MATERIALS: test tubes 13x100, 16x125; volumetric flasks: 500 mL, 50 mL(2), 25 mL(2); pipets: 10 mL(2), 5 mL; beakers: 100 mL(2); plastic buret funnel; glass stirring rod; plastic droppers; Spectronic 20 and Spectronic 200 spectrometers; centrifuge; FD&C Yellow Dye #5; POWERade®. PURPOSE: The purpose of this experiment is to prepare a series of solutions of a pure compound, FD&C Yellow Dye #5, and to use those solutions to create a calibration curve. With the calibration curve the students may analyze commercial beverage samples for dye content. This lab is designed to introduce students to absorption spectroscopy and Beer’s Law, as well as the preparation of standard solutions and generation of a standard curve. LEARNING OBJECTIVES: By the end of this experiment, the student should be able to demonstrate these proficiencies: 1. Identify and use the following equipment: Spectronic 200 spectrometer, centrifuge and volumetric glassware. 2. Prepare solutions of known concentration by mass and by dilution methods. 3. Understand the relationship between the colors or wavelengths of a solution and the colors or wavelengths absorbed or transmitted by the solution. 4. Generate a calibration curve for absorption spectroscopy. 5. Create graphs and use them to determine the concentration of an unknown solute. PRE-LAB: Complete the Pre-lab questions on p. E37A-8 before lab. DISCUSSION: Color is an important property of foods that adds to our enjoyment of eating. Nature teaches us early on to expect certain colors in certain foods, and our future acceptance of foods is highly dependent on meeting these expectations.
    [Show full text]
  • Laboratory Procedure Manual
    Laboratory Procedure Manual Analyte: Erythrocyte Protoporphyrin Matrix: Whole Blood Method: Modification of the method of Sassa et al. Method No.: 0164A Revised: as performed by: State of New York Department of Health Wadsworth Center Trace Metals Laboratory Contact: Patrick Parsons, Ph.D. Important Information for Users New York Department of Health periodically refines these laboratory methods. It is the responsibility of the user to contact the person listed on the title page of each write-up before using the analytical method to find out whether any changes have been made and what revisions, if any, have been incorporated. Erythrocyte Protoporphyrin in Whole Blood NHANES 2003–2004 Public Release Data Set Information This document details the Lab Protocol for NHANES 2003–2004 data. A tabular list of the released analytes follows: Lab Number Analyte SAS Label LBDEPPSI Protoporphyrin (µmol/L RBC) l39_c LBXEPP Protoporphyrin (µg/dL RBC) Page 2 of 16 Erythrocyte Protoporphyrin in Whole Blood NHANES 2003–2004 1. SUMMARY OF TEST PRINCIPLE AND CLINICAL RELEVANCE Porphyrins and heme components are extracted from whole blood into a 4:1 mixture of ethyl acetate-acetic acid. Porphyrins are then separated from heme by back-extraction into a 1.5 M hydrochloric acid solution, and quantitatively determined by molecular fluorometry using a spectrofluorometer calibrated with protoporphyrin IX (PPIX) standard solutions; however, the exact concentration of the standards must first be established using molecular absorbance, Beer’s Law, and the millimolar absorptivity of PPIX. The analytical method for erythrocyte protoporphyrin (EP) routinely employed by the EP Lab is based largely on those originally described by Sassa et al.
    [Show full text]
  • The Laboratory Centrifuge Machine Description
    Centriflex The laboratory centrifuge Machine description The SIEBTECHNIK laboratory centrifuge Additionally, the centrifuge can be fi tted with CENTRIFLEX is a universal laboratory centrifuge perforated beakers so the fi ltering behavior of for examining separation possibilities of solid/ products can be examined using different fi lte- liquid mixtures using elevated centrifugal ring media. forces. The CENTRIFLEX can also be used as a discontinuous separator for small suspension The pertinent equipment accessories enable volumes in a host of production fi elds. this laboratory centrifuge to be used in a wide variety of ways for fi ltering, washing, rinsing, clarifying and for continuously separating two liquids as well as for producing emulsions. CENTRIFLEX execution for the application When utilized as a beaker centrifuge, in the explosion area zone 1, it can be equipped ATEX conformity. with full beakers and glass inserts for sedimentation tests to be carried out. Materials Depending on the particular application, all Zones subject to abrasive products can be contact parts with the centrifuged product can protected by wear-resistant materials. be manufactured in non-corrosive, austenitic steels, Hastelloy, titanium and similar. 2 Constructive design As a fl oor-mounted unit, the CENTRIFLEX is designed for operator-friendly charging and fi lling. A shelf in the front of the housing serves as a protected storage area for collecting containers for disposal of centrifugal or fi ltrate waste. The centrifuge is operated via a touch-screen control panel with digital display of the speed, centrifuging time and operating status. Automatic or manual operation with timer are chosen via the controls supplied, yielding great fl exibility.
    [Show full text]