User’s Manual XPert™ Filtered Balance Systems & XPert™ Filtered Balance Stations Models 3940200, 3940201, 3940202, 3940220, 3940221, 3940222, 3940300, 3940301, 3940302, 3940320, 3940321, 3940322, 3940400, 3940401, 3940402, 3940420, 3940421, 3940422 3950200, 3950201, 3950202, 3950220, 3950221, 3950222, 3950300, 3950301, 3950302, 3950320, 3950321, 3950322, 3950400, 3950401, 3950402, 3950420, 3950421, 3950422 Labconco’s Mascot, Labby the LABster
For more information, please contact us: ExpotechUSA 10700 Rockley Road Houston, Texas 77099 USA 281-496-0900 [voice] 281-496-0400 [fax] E-mail: sales@expotechusa.com Website: www.ExpotechUSA.
Labconco XPert Filtered Balance System/Station Manual Warranty Labconco provides a warranty on all parts and factory workmanship. The warranty includes areas of defective material and workmanship, provided such defect results from normal and proper use of the equipment.
TABLE OF CONTENTS CHAPTER 1: INTRODUCTION About This Manual Typographical Conventions 1 3 4 CHAPTER 2: PREREQUISITES Support, Vibration & Movement Requirements Temperature Variation Requirements Humidity and Static Electricity Requirements Background on Electrostatics or Static Electricity Location and Air Current Requirements Exhaust and Blower Requirements Electrical Requirements Space Requirements 5 6 6 7 7 8 8 10 10 CHAPTER 3: GETTING STARTED Unpacking Your Enclosure Installing the Filtered Enclosur
Filters with Volatile Chemicals Chemical Carcinogen Use with Odor Control Carbon Filters Prohibited Acid Use 40 41 41 CHAPTER 6 MAINTAINING YOUR FILTERED ENCLOSURE Routine Maintenance Schedule Decontamination Determination of when to Replace HEPA Filters How to Install a New HEPA Filter with Bag-In/Bag-Out Procedure for XPert Filtered Balance Systems and Stations HEPA Filter Leak Test Setting the Inflow Face Velocity with the Speed Control Adjustment Calibrate and Operate the Airflow Monitors Guardian Dig
CHAPTER 1 INTRODUCTION Congratulations on your purchase of a Labconco XPert™ Filtered Balance System or XPert™ Filtered Balance Station. Your enclosure provides personnel protection through superior containment while conserving energy at OSHA approved velocities as low as 60 feet per minute. It is the result of Labconco’s more than 50 years experience in manufacturing fume hoods and more than 30 years experience in manufacturing filtered enclosures.
Chapter 1: Introduction filtered enclosures include a true bag-in/bag-out HEPA filter to properly protect personnel during filter changing operations. See chart below and contact Labconco for additional ordering information. No. 1. 2.
Chapter 1: Introduction About This Manual This manual is designed to help you learn how to install, use, and maintain your filtered enclosure. Instructions for installing optional equipment or accessory carbon filters on your filtered enclosure are also included. Chapter 1: Introduction provides a brief overview of the filtered enclosure, explains the organization of the manual, and defines the typographical conventions used in the manual.
Chapter 1: Introduction Appendix C: Specifications contains the electrical requirements for filtered enclosures. Wiring diagrams are also included. Appendix D: Quick Chart provides an airflow table and test data for the filtered enclosures. Appendix E: References lists the various resources available that address laboratory ventilation and biosafety.
CHAPTER 2 PREREQUISITES Before you install the filtered enclosure, you need to prepare your site for installation. You must be certain that the area is level and of solid construction. In addition, a dedicated source of electrical power should be located near the installation site to power the filtered enclosure, balance and other apparatus. Additionally, the enclosure should be strategically placed in the lab to provide efficient workflow.
Chapter 2: Prerequisites Support, Vibration and Movement Requirements At a minimum, the supporting structure usually consists of a base cabinet and chemical-resistant work surface. The ability for analytical balances to accommodate vibration varies with type and brand. More advanced balances have improved tolerance, however in the preparation of a balance enclosure site, please consider the following: • • • • • • • Avoid tubular stands or mobile benches that have the potential of moving when touched.
Chapter 2: Prerequisites Humidity and Static Electricity Requirements Electrostatics can be troublesome in a balance enclosure. It is important to understand and, to the extent possible, control static charges. An electrostatic charged vessel, sample or enclosure can apply forces and lead to errors in weighing. The repulsion or attraction can be detected with micro, semi micro and analytical balances. Static charges can also lead to particulates being attracted to surfaces within the balance enclosure.
Chapter 2: Prerequisites The ability of a material to become polarized is a property known as permittivity. On highly insulative materials like acrylic, ions or charged molecules are strongly bound to the surface by polarization forces. The higher the force, the higher is the permittivity value of the material. It is suggested by balance manufacturers that the use of high permittivity materials, such as plastic be avoided.
Chapter 2: Prerequisites The HEPA-filtered exhaust air can be recirculated into the laboratory or exhausted outside with the addition of the exhaust connection kit and remote blower listed in Chapter 7. The XPert Filtered Balance Station does not include the motorized impeller and must be exhausted to the outside by a remote blower. The XPert Filtered Balance Station remote blower may be switched from the blower switch on the enclosure.
Chapter 2: Prerequisites Proper blower selection can be determined from these exhaust requirements and the total system static pressure loss. For outside exhaust, the enclosure must be connected to either a dedicated blower or a house exhaust system. Labconco offers accessory remote blowers listed in Chapter 7. Contact Labconco for blower sizing assistance. ! If the enclosure is connected directly to a house exhaust system, an adjustable damper (or valve) must be installed to control the airflow properly.
CHAPTER 3 GETTING STARTED Now that the site for your filtered enclosure is properly prepared, you are ready to unpack, inspect, install, and validate your system. Read this chapter to learn how to: • Unpack and move the enclosure. • Set up the enclosure with the proper supporting structure and work surface. • Connect to an exhaust system if applicable. • Installation of HEPA and accessory Odor Control carbon filters. • Connect the electrical supply. • Set the face velocity with the speed control adjustment.
Chapter 3: Getting Started Unpacking the Enclosure The United States Interstate Commerce Commission rules require that claims be filed with the delivery carrier within fifteen (15) days of delivery. Carefully remove the shrink-wrap or carton on the enclosure and inspect it for damage that may have occurred in transit. If damaged, notify the delivery carrier immediately and retain the entire shipment intact for inspection by the carrier. ☞ DO NOT RETURN GOODS WITHOUT THE PRIOR AUTHORIZATION OF LABCONCO.
Chapter 3: Getting Started 0.36" of the front of the work surface. Mounting holes are provided in the Labconco accessory work surfaces to secure the enclosure. Work Surface Specifications The work surface should be smooth, rigid, and durable, such as a chemical-resistant epoxy resin. The surface should be non-porous and resistant to the powders, solvents and chemicals used in conjunction with the XPert Filtered Enclosure.
Chapter 3: Getting Started Figure 3-1 Filtered Enclosure Installation 14
Chapter 3: Getting Started XPert Station ! Connecting to the Exhaust System (Optional on XPert Filtered Balance System) WARNING: The weight of the exhaust ductwork system must be supported independently of the enclosure superstructure or damage may occur. The exhaust system should be installed by a qualified HVAC contractor. The exhaust connection on the XPert Filtered Balance Station has been designed to accept 6" diameter ductwork as shown in Figure 3-2.
Chapter 3: Getting Started Figure 3-2 XPert Filtered Balance Station only Model Series 3940200, 3940300, and 3940400 16
Chapter 3: Getting Started Figure 3-3 Exhaust Duct Connection Kit shown installed on XPert Filtered Balance System (Optional) Kit #3924400 (2'), 3924401 (3'), and 3924402 (4') 17
Chapter 3: Getting Started Installation of HEPA Filters and Accessory Odor Control Carbon Filters HEPA HEPA Filters HEPA filters are shipped installed with the gasket on the downstream side. The HEPA filters are leak checked at Labconco. A second leak check is recommended before using the enclosure and at least annually thereafter. Consult your Safety Officer and Chapter 6 for the HEPA Filter Leak Test and HEPA Filter BagIn/Bag-Out Procedure.
Chapter 3: Getting Started HEPA Carbon Carbon Carbon Filter Type HEPA 2' 3707900 3' 3707901 4' 3707902 Organic Vapor Activated Carbon 2' 3937200 3' 3937300 4' 3937400 Appropriate Use HEPA filters are high-efficiency particulate air filters having a particulate removable efficiency of 99.99% for particles with a diameter of 0.3 micron. Adsorbs organic compounds designated by NIOSH guidelines as acceptable for use with chemical cartridge-type respirators.
Chapter 3: Getting Started The maximum circuit load for the electrical relay is 6 amps. Only the remote blower wiring is connected inside the electrical junction box. The lights and airflow monitor are powered from a standard duplex electrical receptacle located nearby for connecting the power cord. All wiring for the XPert Filtered Balance Station should be performed by a licensed electrician and conform to local codes.
Chapter 3: Getting Started 230V Models The same procedure applies for the 230V except it is shipped without a plug. Install the appropriate plug for your electrical specifications per local codes. Set the Face Velocity with the Speed Control Adjustment For XPert Filtered Balance Systems, adjustment of the speed control gives the correct face velocity and is located behind the front panel. The face velocity should be adjusted from 60 to 100 fpm for weighing operations.
Chapter 3: Getting Started individual ratings). For “field use” ASHRAE testing contact Labconco for a certified on-site contractor. For particulate powder validation, Labconco had containment testing performed to validate the enclosures for sodium naproxen powders. The XPert HEPA filtered enclosures demonstrated excellent containment when used by an operator using excellent technique and good containment when used by an operator using marginal technique.
CHAPTER 4 HIGH PERFORMANCE FEATURES AND SAFETY PRECAUTIONS High Performance Features: The patented* XPert Filtered Balance System and XPert Filtered Balance Station are designed to meet the needs of the laboratory scientist, and provide superior containment while conserving energy at OSHA approved “low flow” velocities as low as 60 feet per minute. The filtered enclosures have been tested to effectively contain toxic and noxious materials when properly installed and operated.
Chapter 4: High Performance Features and Safety These concentrations of materials are predominantly removed on the “first pass” of airflow through the chamber resulting in high performance containment. The plenum and the HEPA filter are jacketed by negative pressure. Should a leak occur in the filter gasket or the plenum, the contaminated air is recaptured and refiltered.
Chapter 4: High Performance Features and Safety 17 26 16 19 15 10 3 8 18 2 4 6 1 5 Not Shown 7, 9, 10, 11, 12, 13, 20, 21, 22, 23, 24, 25, 28 (See Figure 4-2) Figure 4-1 25
Chapter 4: High Performance Features and Safety Figure 4-2 HEPA Filtered Enclosure Airflow Diagram 26
Chapter 4: High Performance Features and Safety 1. Aerodynamic Clean-Sweep™ Air Foil has a unique shape that allows air to sweep the work surface for maximum containment. The Clean-Sweep™ openings create a constant protective barrier from contaminants. Should the operator inadvertently block the airflow entering the air foil, air continues to pass under the air foil and through the Clean-Sweep openings. See Figures 4-1 and 4-3. Figure 4-3 2.
Chapter 4: High Performance Features and Safety 3. Upper Dilution Air Supply provides bypass air from above the work area. This feature constantly bathes the inside of the sash with clean air and reduces powders, particulate materials and chemical fumes along the sash plane, near the critical breathing zone. Five to seven percent of the required air volume is introduced through the upper dilution air supply. The upper dilution air supply also reduces stagnant pockets of air in the upper interior.
Chapter 4: High Performance Features and Safety Monitor also displays a face velocity value, provides an RS232 output, a night setback mode and several auxiliary relay ports. Both airflow monitors are available options on all XPert models. See Figure 4-1 and 4-2. 11. Inherently Safe Impeller has a negative pressure plenum that surrounds the positive pressure impeller so that if a leak should occur, the unfiltered air is captured and refiltered. See Figure 4-2. 12.
Chapter 4: High Performance Features and Safety 20. HEPA (High Efficiency Particulate Air) Filter is rated to remove 99.99% of all particles 0.3 micron in size. See Figure 4-2. 21. Lamp Ballast (Not Shown) for the fluorescent lamp is located behind the control panel. 22. Accessory Work Surface (not shown) is dished and contoured to fit the dimensions of the enclosures to contain spills. 23.
Chapter 4: High Performance Features and Safety Safety Precautions 1. Although the enclosure has been engineered to maintain optimum operator safety, caution should always be used while working. Prior to using the enclosure, check to make sure that the exhaust blower is operating and that air is entering the enclosure at its specified face velocity. The use of an airflow monitor is recommended to alert the user to a problem with airflow. 2. Use good housekeeping in the enclosure at all times.
Chapter 4: High Performance Features and Safety 12. The sash must remain in the down position while using the enclosure. 13. Proper performance of the enclosure depends largely upon its location and the operator’s work habits. Consult the references in Appendix D. 14. The enclosure should be recertified whenever it is serviced or at least annually thereafter. 15. The HEPA filter provides personnel and environmental protection from particulate matter.
Chapter 4: High Performance Features and Safety 20. Ensure that the filtered enclosure is connected to an electrical service in accordance with local and national electrical codes. Failure to do so may create a fire or electrical hazard. Do not remove or service any electrical components without first disconnecting the filtered enclosure from electrical service. 21. Use of an open flame must be avoided with the enclosure.
Chapter 4: High Performance Features and Safety 29. Use the smallest possible quantity of chemical(s) within the enclosure and never exceed the amount, which can be effectively adsorbed by the Odor Control carbon filter before breakthrough. 30. For weighing procedures, adjust face velocity between 60 and 100 FPM for effective operation. 31. Leave the blower on for at least one minute after work in the enclosure has been completed. 32.
CHAPTER 5 APPROPRIATE APPLICATIONS FOR YOUR FILTERED ENCLOSURE Now that the installation of your filtered enclosure is completed, you are ready to use your filtered enclosure. Read this chapter to learn about: 1. Routine Daily Work Procedures. 2. Suitable Applications. 3. Appropriate HEPA Filter Applications, Suitability and Guidelines. 4. Odor Control Carbon Filter Applications. 5. Definition of Terms. 6. Appropriate Chemicals for Odor Control Carbon Filters. 7.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application • Arrange for minimal disruptions, such as room traffic or entry into the room while the enclosure is in use. Start-up • Turn on exhaust system and accessory light. • Only raise the sash for loading and cleaning. • Check the baffle air slots for obstructions. • Allow the enclosure to operate unobstructed for 1 minute. • Wear a long sleeved lab coat and rubber gloves. Use protective eyewear. Wear a protective mask if appropriate.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application Shutdown • Turn off the exhaust system and light. Suitable Applications NIOSH (National Institute for Occupational Safety and Health, USA) has established guidelines for chemical cartridge and HEPA filtered respirators. Suitable applications for the filtered enclosures are based on these guidelines.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application • • The HEPA filter will gradually accumulate airborne particulate matter from the room and from work performed in the enclosure. The rate of accumulation will depend upon the cleanliness of the room air, the amount of time the enclosure is operating, and the nature of work being done. With normal usage, the HEPA filters will last two to five years before requiring replacement. Each filtered enclosure is provided with a HEPA filter.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application PRODUCT. IT IS THE USER’S RESPONSIBILITY TO BECOME AWARE OF LOCAL REGULATIONS GOVERNING THE SAFE USE AND DISPOSAL OF CHEMICALS, CARBON AND HEPA FILTERS. KNOWLEDGE OF ESTABLISHED SAFE EXPOSURE LEVELS IS IMPERATIVE TO THE PROPER USE OF FILTERED ENCLOSURES. Definition of Terms NIOSH – National Institute for Occupational Safety and Health/Mine Safety and Health Administration. (U.S.A.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application immediate irreversible health effects. IDLH concentrations should not be approached in the enclosure. Appropriate Chemicals for Odor Control Carbon Filters Below is a general set of rules to determine appropriateness of chemical usage. ! Selected organic chemicals considered to be occupational carcinogens by NIOSH can be used in the filtered enclosure with carbon filters under rigid restrictions.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application user continues to operate the enclosure with any of the following conditions present a potentially hazardous condition will exist: 1. The inlet concentration of vapors is greater than the TWA. 2. The carbon filter becomes saturated. 3. The ventilation of the room is insufficient to dilute the exhaust of the enclosure to below the TWA for the chemical.
Chapter 5: Using Your Filtered Enclosure and Appropriate Application separate ventilated enclosure or vented fume hood should be used with a remote blower ducted to the outside. No exceptions are permitted, as the impeller life span will be limited with acid use. NOTE: Low level acids can be used with the XPert Filtered Balance Station, which uses a remote blower.
CHAPTER 6 MAINTAINING YOUR FILTERED ENCLOSURE Monitoring airflow and changing the filters is the primary maintenance required. Decontamination may be required and is reviewed in Chapter 6. Certification and recertification is reviewed in Chapter 6. Review this chapter on maintenance for the following: 1. Routine Maintenance. 2. Decontamination. 3. Determination of when to replace the HEPA filters. 4.
Chapter 6: Maintaining Your Filtered Enclosure Routine Maintenance Schedule Weekly • Wipe down the interior surfaces of the enclosure with a disinfectant or cleaner, depending upon the usage of the unit and allow to dry. • Using a damp cloth, clean the exterior surfaces of the enclosure, particularly the front and top to remove any accumulated dust. • Operate the exhaust system, noting the airflow velocity through the enclosure using a source of visible smoke.
Chapter 6: Maintaining Your Filtered Enclosure Annually • Replace the fluorescent lamps. • Have the enclosure validated by a qualified certification technician. See Certification and Recertification in Chapter 6. • All monthly activities.
Chapter 6: Maintaining Your Filtered Enclosure How to Install a New HEPA Filter with the Bag-In/Bag-Out Procedure for XPert Filtered Balance Systems and Stations The XPert enclosures include a true bag-in/bag-out filter disposal system for safely removing the HEPA filter and protect the worker from toxic powders and particulates. See Figures 6-1 for the BagIn/Bag-Out Procedure. For your safety, wear appropriate personal protective equipment during the change of HEPA filters.
Chapter 6: Maintaining Your Filtered Enclosure 9. Carefully fold and roll the new bag in four-inch pleats and push the bag into the access port. Reinstall the retaining strap and bungee cords. Turn the enclosure ON to draw a vacuum on the bag. Reinstall the front panel. Figure 6-1 Bag-In-Bag-Out HEPA Filter Changing Procedure Diagram & Filter Leak Test Diagram HEPA Filter Leak Test Purpose HEPA After installing the new HEPA filter, the HEPA filter should be leak checked.
Chapter 6: Maintaining Your Filtered Enclosure Apparatus 1. An aerosol photometer ATI model 2D, 2E, 2G or equivalent. Air Techniques Hamilton Associates inc. 11403 Cron Ridge Dr. Owings Mills, MD 21117 2. One aerosol generator of the Laskin nozzle(s) type. An aerosol of mineral oil or suitable liquid shall be created by flowing air through it. The compressed air supplied to the generator should be adjusted to a pressure of 10± 1 psig. during operation. Air Techniques Inc. Model TDA-4A or equal.
Chapter 6: Maintaining Your Filtered Enclosure 8. If necessary, adjust the speed control of the enclosure to maintain the following airflows at 90 fpm; 2' (130cfm), 3' (200 cfm, 4' (265 cfm.) 9. Position the aerosol generator discharge in the intake of the baffle inside the enclosure. 10. Start the aerosol generator (Pressure to be +/- 1 PSIG). Ensure that one Laskin nozzle is in the “open” position. 11. Allow the generator to operate for a minimum of 15 seconds.
Chapter 6: Maintaining Your Filtered Enclosure Calibrate and Operate the Airflow Monitors OPTION Guardian Airflow Monitor (LED Monitor) Refer to Figure 6-2 for operation and calibration. Labconco Airflow Monitor / Airflow Switch Operation The Guardian Airflow Monitor (LED) consists of a circuit board and an airflow switch. This switch indicates airflow as safe or low.
Chapter 6: Maintaining Your Filtered Enclosure • • • External Alarm allows an external signal to sound the alarm, such as a sash open switch, or a “fail” signal from the building airflow system. Alarm Disable allows an external signal to prevent a “low” airflow alarm from occurring. Night Setback allows an external signal to prevent a “low” airflow alarm from occurring (not any different from Alarm Disable above other than the terminology.) Contact Labconco for ordering information on this special PCB.
Chapter 6: Maintaining Your Filtered Enclosure Figure 6-2 Guardian Airflow Monitor (LED) with Airflow Switch Option Guardian Digital 1000 Airflow Monitor Refer to Figure 6-3 for operation and calibration. Refer to the separate Labconco 1000 Alarm Manual for detailed information.
Chapter 6: Maintaining Your Filtered Enclosure Operation The Guardian Digital Airflow Monitor consists of the airflow sensor, the Alarm Unit, and the 15 VDC power supply. For 115V operation the alarm unit is powered by plugging the power supply into the factory-prepared digital airflow monitor socket. For 230V operation, the Alarm Unit is powered by plugging the power supply into a building outlet. The alarm has “Enter,” “+,” and “-” buttons to program the monitor.
Chapter 6: Maintaining Your Filtered Enclosure To start the calibration, use the Labconco 1000 Manual and enter the “CALIBRATIION” mode on the display. Follow the instructions on the display and alter the low and high exhaust volumes with the speed control. The following suggested inflow face velocity speeds are recommended to successfully calibrate. Typical low air alarms are set 10-30 fpm below operational speeds. Typical yellow cautions are set 3-10 fpm above the red low air alarm.
Chapter 6: Maintaining Your Filtered Enclosure Figure 6-3 Guardian Digital 1000 Airflow Monitor 55
Chapter 6: Maintaining Your Filtered Enclosure Determination of When to Replace Odor Control Carbon Filters and How to Replace The carbon filters MUST be replaced when any one of the following two conditions are met: 1. The filtered enclosure outlet (exhaust) concentration approaches the inlet concentration, indicating filter saturation. 2. The odor in the work area becomes intolerable or the concentration of the chemical in the work area is greater than the TWA.
Chapter 6: Maintaining Your Filtered Enclosure syringe represents a 100-ml sample and corresponds to the number of strokes necessary to give the indicated color changes. Due to the wide variety of organics and varying TWA’s, it is recommended that specific detector tubes be purchased directly from Sensidyne, Draeger or your laboratory supply dealer. Alternate detector pumps can also be purchased from your laboratory supply dealers. The vast majority of detector tubes available start measuring at the TWA.
Chapter 6: Maintaining Your Filtered Enclosure 3. Re-install the new carbon filter with the gasket down. Replace the upper diffuser screen, clips and two screws. 4. The weight of the carbon filter with the gasket down will compress the gasket. Calculating Odor Control Carbon Filter Life Labconco developed a modeling program to estimate the filter life for typical carbon filters.
Chapter 6: Maintaining Your Filtered Enclosure Formaldehyde only For formaldehyde, use 10% of the impregnated carbon weight. Formalin is 37% formaldehyde by weight. The density of formalin is 1.08 g/ml. Model Size 2' 3' 4' Filter Size 18 x 18 x 1 30 x 18 x 1 42 x 18 x 1 Pounds of Formasorb Carbon 7.0 12.0 16.8 Adsorbed weight of Formaldehyde 0.7 lbs./318g 1.2 lbs./545g 1.68 lbs./763g Adsorption Volume of Formalin 796 ml 1364 ml 1910 ml Ammonia only For ammonia, use 10% of the impregnated carbon weight.
Chapter 6: Maintaining Your Filtered Enclosure • • • • • Measure of Line Voltage and Current Smoke Test to determine proper airflow patterns Lighting Intensity Test (when appropriate) Noise Level Test (when appropriate) Vibration Test (when appropriate) Fluorescent Light Replacement 1. Disconnect the power. 2. Locate the small light reflector located under the control panel shown in Figure 6-2 and Figure 6-3. 3.
Chapter 6: Maintaining Your Filtered Enclosure 6. Reassemble the new motorized impeller by reversing the assembly steps.
Chapter 6: Maintaining Your Filtered Enclosure Speed Control Replacement XPERT FILTERED BALANCE SYSTEM 62 1. Remove the bracket that the speed control is attached to. See Figures 6-1, 6-2 and 6-3. 2. Remove the two screws holding the speed control using a Phillips screwdriver. Refer to Appendix A for Replacement Parts Diagram. 3. Disconnect all wires leading to the speed control. Connect wires on new speed control in the same position as the old speed control. 4.
CHAPTER 7 ACCESSORIZING AND MODIFYING YOUR FILTERED ENCLOSURE There are several ways to accessorize and modify the filtered enclosure for your individual requirements. These include the addition of accessory work surfaces, airflow monitors; exhaust transition kits, remote blowers, exhaust dampers, filters, storage cabinets and utility shelf kit. 1. Work Surfaces An optional dished work surface is available to attach to the filtered enclosure.
Chapter 7: Accessorizing and Modifying your Filtered Enclosure 2. Guardian™ 1000 Digital Airflow Monitor or Guardian™ LED Airflow Monitor The Guardian Digital 1000 Airflow Monitor or Guardian LED Airflow Monitor allows you to continuously monitor airflow through the enclosure. Either monitor is usually provided with the XPert enclosures. Description Guardian Airflow Monitor 115V or 230V 1 ea. 1 ea. 2 ea. 2 ea.
Chapter 7: Accessorizing and Modifying your Filtered Enclosure Order the following: Part Description 3924400 2' Exhaust Transition Kit 3924401 3' Exhaust Transition Kit 3924402 4' Exhaust Transition Kit 4. Remote Blowers Has a 1/4 hp direct drive motor and corrosion-resistant epoxycoated steel housing and wheel with blower inlet of 6.00" ID. Outlet dimensions are 4.25" x 7.38" OD. S.P. CFM Catalog # 4863500 4863501 7053501 0.0" 595 CFM @ Static Pressure-Inches of H2O 0.125" 0.25" 0.50" 0.
Chapter 7: Accessorizing and Modifying your Filtered Enclosure 5. Exhaust Dampers Exhaust dampers allow adjustments required to maintain proper airflow for roof-mounted blowers or house exhaust systems. This would primarily be useful only for the XPert Filtered Balance Station, which does not have an integral blower, but does have a 6" nominal exhaust outlet. Catalog # 3924000 4724200 Description 6" Epoxy Coated Steel In-Line adjustable damper 6" PVC In-line adjustable damper 6.
Chapter 7: Accessorizing and Modifying your Filtered Enclosure 7.
Chapter 7: Accessorizing and Modifying your Filtered Enclosure 68
CHAPTER 8 TROUBLESHOOTING AND SERVICER OPERATING LOG Refer to the following table if your filtered enclosure fails to operate properly. If the suggested corrective actions do not solve your problem, contact Labconco for additional assistance. PROBLEM CAUSE CORRECTIVE ACTION Contaminants outside of enclosure. Improper user techniques for the enclosure. See “Certifying the Enclosure” Chapter 3 and “Safety Precautions” Chapter 4 sections in the manual. (Ref. Appendix D).
Chapter 8: Troubleshooting PROBLEM Blower won’t operate. Low face velocity or poor containment of contaminants. Blower and lights won’t operate. Lights do not work. Airflow monitor malfunction. CAUSE Unit not plugged into outlet. Circuit breaker(s) or Ground Fault Interrupter. Blower wiring is disconnected. Blower switch is defective. Motorized impeller or blower is defective. Enclosure sash not closed. CORRECTIVE ACTION Plug the enclosure into appropriate electrical service. Reset circuit breaker.
Chapter 8: Troubleshooting PROBLEM Airflow Monitor Malfunction (Continued) CAUSE Wrong alarm set point. CORRECTIVE ACTION Airflow monitor was not properly adjusted. Repeat calibration steps outlined in this manual in Chapter 6 or in the supplied Digital 1000 Monitor Manual. Constant audible Check airflow and calibration of alarm. airflow monitor. See Chapter 6. Continuous alarm. Check the face velocity of the enclosure as the airflow of the system may have changed.
Chapter 8: Troubleshooting Service Operating Record Log Customer Name Model Number Date Installed Serial Number Unit Location Date 72 Comments
APPENDIX A FILTERED ENCLOSURE COMPONENTS AND REPLACEMENT PARTS The components that are available for your filtered enclosure are listed. The parts shown are the most commonly requested. If other parts are required, please contact Product Service.
Appendix A: Replacement Parts Item 1 2A 2B 2C 3A 3B 3C 4A 4B 4C 5A 5B 6A 6B 7A 7B 7C 7D 8A 8B 8C 9A 9B 9C 10 11A 11B 12A 12B 13A 13B 13C 13D 14A 14B 14C 16A 16B 16C 74 Qty. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 2 2 2 1.
Appendix A: Replacement Parts Item 17A 17B 18A 18B 19 20A 20B 21 22 23A 23B 23C 23D 23E 23F 23G 24A 24B 24C 24D 24E 25A 25B 25C 25D 25E 25F 26A 26B 26C 28A 28B 29A 29B 29C 30A Qty.
Appendix A: Replacement Parts 76 Item 30B 31A 31B 32A 32B 32C 33A 33B 33C 33D 33E 33F 33G 33H 33I 34 Qty.
Appendix A: Replacement Parts Use for XPert System and XPert Station 23 17 22 26 29 18 34 25 28 19 30 33 Placed on ledge above HEPA filter 40 13 36 31 14 35 7 32 21 24 8 16 20 9 12 11 5 4 1 10 3 2 6 77
Appendix A: Replacement Parts Use for XPert System, XPert Station, Digital Monitor and Bag 23 37 42 Location only Not shown 37 39 Needs to be sealed on XPert Station Ships uninstalled as shown 38 18 32 19 37 8 37 20 41, Location only Not shown 78
APPENDIX B DIMENSIONS AND EXHAUST OPTIONS See the following dimensions and exhaust options for all the XPert Filtered Balance Systems and XPert Filtered Balance Stations.
Appendix B: Dimensions and Exhaust Options Figure B-1 XPert Filtered Balance System 80
Appendix B: Dimensions and Exhaust Options Figure B-2 XPert Filtered Balance Station 81
Appendix B: Dimensions and Exhaust Options Figure B-3 Exhaust Duct connection Kit (Optional Installation on Integral Blower Models such as the XPert Filtered Balance System) 82
APPENDIX C FILTERED ENCLOSURE SPECIFICATIONS This Appendix contains technical information about all the XPert Filtered Enclosures including electrical specifications, environmental operating conditions and wiring diagrams. • 3 Amps, 115V or 2 Amps, 230V, 50/60 Hz, XPert Filtered Balance System and XPert Filtered Balance Station. Environmental Conditions • Indoor use only. • Maximum altitude: 6562 feet (2000 meters). • Ambient temperature range: 41° to 104°F (5° to 40°C).
Appendix C: Filtered Enclosure Specifications • 84 Used in an environment of Pollution degrees 2 (i.e., where normally only non-conductive atmospheres are present). Occasionally, however, a temporary conductivity caused by condensation must be expected, in accordance with IEC 664.
Appendix C: Filtered Enclosure Specifications C-1 85
Appendix C: Filtered Enclosure Specifications C-2 86
Appendix C: Filtered Enclosure Specifications C-3 87
Appendix C: Filtered Enclosure Specifications C-4 88
APPENDIX D QUICK CHART FOR THE FILTERED ENCLOSURES Model Size Sash Height from Work Surface (inches) Total Open Area with Bypass (sq. ft.) Exhaust Airflow Volume at 90fpm (CFM) Alarm Airflow Volume at 60 fpm (CFM) Initial Mag. Gauge Pressure Reading (inches H2O) Number of Laskin Nozzles needed at 10 psig Exhaust HEPA Filter w/ Gasket Dimensions (inches) *Motor Horsepower (HP) *Capacitor (MFD, Volts) Fluorescent Lights 2' 9.44 1.45 130 85 0.20 to .045 1 18x18x3.31 0.
APPENDIX E REFERENCES ON VENTILATION, SAFETY, OCCUPATIONAL HAZARDS, BIOSAFETY AND DECONTAMINATION Many excellent reference texts and booklets are currently available. The following is a brief listing: Laboratory Ventilation Standards Federal Register 29 CFR Part 1910 Non-mandatory recommendations from “Prudent Practices.” • Fume hoods should have a continuous monitoring device • Face velocities should be between 60-100 linear feet per minute (lfpm) • Average 2.
Appendix E: References Occupational Health and Safety U.S. Department of Labor 200 Constitution Avenue N.W. Washington, DC 20210 (202) 523-1452 www.osha.gov Industrial Ventilation-ACGIH • Fume hood face velocities between 60-100 lfpm • Maximum of 125 lfpm for radioisotope hoods • Duct velocities of 1000-2000 fpm for vapors, gasses and smoke • Stack discharge height 1.3-2.0 x building height • Well designed fume hood containment loss, <0.10 ppm Industrial Ventilation, A Manual of Recommended Practice.
Appendix E: References American Industrial Hygiene Association 2700 Prosperity Avenue, Suite 250 Fairfax, VA 22031 (703) 849-8888 www.aiha.org SEFA 1-2002 • Fume hood face velocities based on toxicity levels of chemicals Class A – 125 to 150 fpm Class B – 80 to100 fpm Class C – 75-to 80 fpm • Test method – face velocity profile and smoke generation Scientific Equipment & Furniture Association 1028 Duchess Drive McLean, VA 22102 (703) 538-6007 www.sefalabs.
Appendix E: References General References American Conference of Governmental Industrial Hygienists. Industrial Ventilation, A Manual of Recommended Practice, Cincinnati, OH ASHRAE Standard Committee. ASHRAE Standard Atlanta: ASHRAE Publications Sales Department, 1995 British Standards Institution, Laboratory Fume Cupboards.
Appendix E: References Kruse, R.H., WH. Puckett and J. H. Richardson. 1991. Biological Safety Cabinetry, Clin. Microbiol. Rev. 4:207241. Miller, C.D., D.H.M. Groschel, J. H. Richardson, D. Vesley, J. R. Songer, R. D. Housewright and W. E. Barkley. 1986. Laboratory Safety, Principles and Practices, American Society for Microbiology, Washington, D.D. National Research Council (U.S.) Committee on Hazardous Biological Substances in the Laboratory. 1989. Biosafety in the Laboratory.
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