DOCSLIB.ORG

Ultrapure Water Production Semiconductor and Electronic Industries

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Ultrapure Water Production Semiconductor and Electronic Industries REFERENCE LIST Crystal Clear answers to your needs SEMICONDUCTOR SOLAR PHARMA POWER GENERATION FOOD & BEVERAGE PULP AND PAPER CHEMICAL OIL AND GAS MINING AEROSPACE AND TRANSPORT Ultrapure Water Production Semiconductor and Electronic Industries Client Plant Type Capacity Sunicon Water treatment for the photovoltaic industry Freiberg/Germany 5 m³/h Activated carbon filter, Softening, reverse osmosis, EDI 2 m³/h Astex Ultrapure water for the semiconductor industry Berlin/Germany Softening, ROCEDIS (reverse osmosis, EDI), tank, polishing 1 x 0.6 m³/h mixed bed Mikron Extension of ultra pure water plant for semiconductor Selenograd/Russia industry Pre treatment + Make-up 15 m³/h Heater, ultrafiltration, membrane degassing, ROCEDIS(reverse osmosis, EDI), UV-oxidation, ion exchanger with boron selective resin Polishing 25 m³/h UV-oxidation, cooler, mixed bed polisher, membrane degassing, ultrafiltration Epcos Ultrapure water for the semiconductor industry Munich/Germany ECOSOFT (softening), ROCEDIS (reverse osmosis, EDI), 1 x 12 m³/h tank, UV-oxidation, polishing mixed bed ABB Extension of ultra pure water plant for semiconductor Lenzburg/Switzerland Polishing 85 m³/h Mixed bed, cooler, UV-oxidation, ultrafiltration Overhaul pre treatment + Make-up 2 x 6 m³/h CNII Mechaniki Water treatment for the semiconductor industry Moscow/Russia Pre treatment 1 m³/h Multi-media filter, activated carbon filter, reverse osmosis, EDI Polishing 3 m³/h UV, cooler, mixed bed, ultrafiltration ABB Extension of ultra pure water plant for semiconductor Lenzburg/Switzerland Pre treatment + Make-up 2 x 10 m³/h ECOSOFT- Softening, reverse osmosis, UV-oxidation, membrane degasser, EDI Stangl Water treatment for the photovoltaic industry Eichenau/Germany Pre treatment + Make-up 1 m³/h Softening, ROCEDIS, membrane degasier Polishing und Reclaim 5 m³/h UV-sanitising, mixed bed, end filter Deutsche Solar Water treatment for the photovoltaic industry Freiberg/Germany Raw water treatment Ultrafiltration, activated carbon filter, UV 110 m³/h Cooling water treatment Filter, UV 150 m³/h Demineralisation plant Softener, Reverse Osmosis, UV, EDI, Polishing 85 m³/h Waste water treatment Neutralisation 85 m³/h 1E600 Semicon UPW Rev 10 Page: 2 Of: 13 Date: 29/10/2015 Client Plant Type Capacity Solibro GmbH Fab 2 UPW – production, recycling and wastewater treatment Thalheim/Germany plant for photovoltaic industry Not disclosed ABB Extension of ultra pure water plant for semiconductor 18 m³/h Lenzburg/Switzerland Tank, pumps and extension of polishing system X/Fab Renewing of raw water pumps 50 m³/h Erfurt/Germany Exchange of pumps Including electrical installation Elmos Ultrapure water for semiconductor industry Dortmund/Germany 10 m³/h RO, membrane degasser, EDI, UV, mixed bed polisher, cartridge filter Imec Ultrapure water for semiconductor industry Leuven/Belgium 18 m³/h Extension of an ultrapure water plant 12 m³/h ECO SOFT , RO, membrane degasser, EDI UV, mixed bed polisher, ultrafiltration Osram Ultra pure water for semiconductor industry: Penang/Malaysia 30 m³/h EcoSoft (Softener), RO, EDI, mixed bed polisher, UPW tank, UV, cartridge filter PETec Ultrapure water for semiconductor industry Sedgefield/UK 0.5 m³/h ECO SOFT (Softener), heat exchanger, 1.5 m³/h ROCEDIS (RO, Membrane Degasser, EDI) SEMI CIRCLE (UV, Heat Exchanger, Mixed Bed, Ultrafiltration) Solibro Ultrapure water for solar industry Not Thalheim/Germany disclosed Solon Ultrapure water for solar industry Berlin/Germany 1.0 Softening, activated carbon filter, heat exchanger m³/h ROCEDIS (RO, Membrane Degasser, EDI) 1.5 SEMI CIRCLE (UV, Mixed Bed, Ultrafiltration) m³/h Vector / HP Modification of the ultra pure water system Dublin/Republic of Ireland ECOSOFT (Softening) 45 Membrane degasser m³/h 40 m³/h X-Fab Extension of ultra pure water system Erfurt/Germany Dosing, Reverse osmosis 18 m³/h Epcos Ultrapure water for semiconductor production München/Germany Refurbishment of EDI System 12 m³/h 1E600 Semicon UPW Rev 10 Page: 3 Of: 13 Date: 29/10/2015 Client Plant Type Capacity Ultrapure water for semiconductor production Infineon Tank, heat exchanger, decarbonisation, membrane Villach/Austria degasser, reverse osmosis, Tank, UV oxidation, external 80 regenerable mixed bed, m³/h Polishing: Tank, UV-oxidation, cooler, mixed bed polisher, ultrafiltration 80 m³/h Plastic Logic Ultrapure water for semiconductor production Dresden/Germany ECOSOFT (Softener), heat exchanger, ROCEDIS (RO, Membrane Degasser, EDI) 15 SEMI CIRCLE (UV, Heat Exchanger, Mixed Bed, Ultrafiltration) m³/h 30 m³/h Nivarox Ultrapure water for micro-mechanic applications Neuchâtel/Switzerland ROCEDIS (RO, Membrane Degasser, EDI) 6 m³/h SEMI CIRCLE (UV, Mixed Bed, Filtration) 10 m³/h Mikron Ultrapure water for semiconductor production Selenograd/Russia Heater, Ultrafiltration, NOVALIS (RO), Membrane Degasser, ROCEDIS (RO, UV Oxidation, EDI) 15 SEMI CIRCLE (UV Oxidation, Cooler, Mixed Bed, Membrane m³/h Degasser, Ultrafiltration) 30 m³/h Epcos Ultrapure water for semiconductor production München/Germany ECOSOFT (Softener), ROCEDIS (RO, Membrane Degasser, 13 EDI) m³/h SEMI CIRCLE (UV Oxidation, Mixed Bed, Filtration) 20 m³/h Bosch Extension of Ultrapure water semiconductor production Reutlingen/Germany Membrane Degasser 2 x 37 m³/h Photovoltech Ultrapure water for solar cell production Tienen/Belgium ECOSOFT (Softening), 15 ROCEDIS (Reserve Osmosis, EDI) m³/h UV-disinfection, mixed bed polisher, final filters 10 m³/h 16 m³/h Bosch Extension of Ultrapure water semiconductor production Reutlingen/Germany MB, Regeneration station, UV, Final Filters 150 m³/h ST Microelectronics Extension of Ultrapure water for semiconductor Tours/France production Polishing mixed bed exchanger 70 m³/h AMS Extension of Ultrapure water for semiconductor Graz/Austria production Multimedia filter, activated carbon filter, demineralisation with ion exchangers, reverse osmosis, UV oxidation, membrane 15 m³/h degasser, mixed bed ion exchange 1E600 Semicon UPW Rev 10 Page: 4 Of: 13 Date: 29/10/2015 Client Plant Type Capacity ST Microelectronics Ultrapure water for semiconductor production Singapore Make up: 50 m³/h Membrane degasser, UV, EDI, Mixed Bed, UPW Tank, Polishing: 40 m³/h UV oxidation, Cooler, Mixed Bed, MDG, UF, Loop 100 m³/h Fraunhofer Institut IPMS Ultrapure water for semiconductor production Dresden/Germany ECOSOFT (Softening), 25 ROCEDIS (Reserve Osmosis, MDG, EDI) m³/h UV-oxidation, mixed bed polisher, ultrafiltration 2 x 5 m³/h Humidifier supply 15 m³/h 1 m³/h AMIS Extension of an ultrapure water plant Oudenaarde/Belgium 40 ECOSOFT (Softening) m³/h EDI 2 x 15 m³/h Atmel Ultrapure water for semiconductor production Newcastle/UK Ultrafiltration 2 x 7 m³/h Infineon Extension of an ultrapure water plant Porto/Portugal Multimedia Filter, ECOSOFT (Softening), 10 ROCEDIS (Reserve Osmosis, EDI) m³/h UV-oxidation, mixed bed polisher, ultrafiltration 7 m³/h 10 m³/h SEZ AG Ultrapure water for semiconductor production Villach/Austria ECOSOFT (Softening), ROCEDIS (Reserve Osmosis, 1.2 MDG, EDI) m³/h UV-oxidation, mixed bed polisher, ultrafiltration Humidifier supply 4 m³/h 1 m³/h Ultrapure water for semiconductor production AMIS Replacement of a vacuum degasser by membrane 35 Oudenaarde/Belgium degasser m³/h APZ Illmenau Ultrapure water for semiconductor production Illmenau/Germany Extension of UPW plant 6 ECOSOFT (Softening), ROCEDIS (Reserve Osmosis, m³/h MDG, EDI) New Polishing System UV-oxidation, mixed bed polisher, ultrafiltration 40 m³/h Fraunhofer Institut Freiburg Ultrapure water for semiconductor production Freiburg/Germany ECOSOFT (Softening), ROCEDIS (Reserve Osmosis, 5 MDG, EDI), mixed bed polisher, m/³h UV-oxidation, mixed bed polisher, ultrafiltration 1E600 Semicon UPW Rev 10 Page: 5 Of: 13 Date: 29/10/2015 Client Plant Type Capacity Epcos Ultrapure water for semiconductor production Munich/Germany ECOSOFT (Softening), ROCEDIS (reserve osmosis, EDI), 10 UV-oxidation, mixed bed polisher, cartridge filter m³/h Infineon Ultrapure water for semiconductor production Regensburg/Germany Retrofitting and extension: Softening, reserve osmosis, EDI, UV-oxidation, 20 mixed bed, polisher, cartridge filter m³/h Neutralisation 35 m³/h Communicant Ultrapure water for semiconductor production Frankfurt/Germany Raw water-Ultrafiltration for surface water, ACF, double pass 80 reverse osmosis, membrane degasser, UV-oxidation, m³/h regenerable mixed bed, UPW tank, UV-oxidation, mixed bed polisher, membrane degasser, ultrafiltration ON Semiconductor Ultrapure water for semiconductor production Piestany/Slovakia Make up system with : Activated carbon filter, 50 Decarbonisation, atmospheric degasser, double pass m³/h reverse osmosis, UV-oxidation, working mixed bed SEZ AG Ultrapure water for semiconductor production Villach/Austria ECOSOFT (Softening), ROCEDIS (Reserve Osmosis, 1.2 MDG, EDI) m³/h UV-oxidation, mixed bed polisher, ultrafiltration 4 m³/h Seagate Ultrapure water for semiconductor production Northern Ireland Extension of EDI-System 52 m³/h Vector / HP Ultrapure water for semiconductor production Dublin/Republic of Ireland Extension of HOT-DI- System 10 m³/h Motorola Tianjin / China Supervision of commissioning of Ultrapure Water Plant Osram Ultrapure water for semiconductor production Burgweinting/Germany Softener ECOSOFT , reverse osmosis, EDI, mixed bed 30 m³/h polisher, UPW tank, UV-sterilisation, mixed bed polisher, cartridge filter Infineon Technologies Ultrapure water for semiconductor production Regensburg/Germany Tank, UV sterilisation, polisher mixed
Load more

Recommended publications
  • Arium® Pro Ultrapure Water Systems Application-Orientated and Flexible to Meet the Highest Demands
    arium® pro Ultrapure Water Systems Application-orientated and flexible to meet the highest demands Advantages – Modular – System selection specifically for your application – Flexible - Perfect integration into any laboratory – Easy to use – Display with touch function and intuitive menu – Fast – Favorites function with direct access for recurring volumes Product Description As a reliable source of ultrapure water, the arium® pro series offers a flexible and modular system which, compared to conventional devices, demonstrates excellent added value. All systems meet and exceed the ASTM Type 1 water quality standards and ensure the best reproducible results in their class. Up to 2 liters of consistently high-quality ultrapure water with a conductivity of 0.055 µS/cm (018,2 MO + cm) can be dispensed per minute. The ultrapure water is virtually microorganism-free when an arium® SterilePlus final filter is used. The patented Sartorius technology, the SD card slot, the long service life and low maintenance requirement distinguish the arium® pro systems as an easy-to-use, economical and reliable Type 1 ultrapure water system. Applications Modular – HPLC, GC-MS Various device configurations are specifically tailored to your – Biological applications, e.g. cell culture application. arium® pro provides any desired ultrapure water – Standard applications such as the production of solutions, quality for critical and standard applications. media, and reagents Water purification on a laboratory scale Flexible The space-saving installation of the device on, under, or above “Favorites” function your workstation integrates it perfectly into any laboratory. With the new favorites function it is possible to save recurring The positioning of the display and the water dispensing point volumes and retrieve them as required by direct access.
    [Show full text]
  • GORE® Filters Water Applications
    For Ultrapure GORE® Filters Water Applications Major Semiconductor Manufacturer Demonstrates GORE® Filters Perform Comparably to UF Module at Significantly Lower Cost Results The performance of the GORE® Filters was nearly equivalent to that of the ultrafiltration module: • UF: ~50 to 100 counts/liter at 0.05µm • GORE® HR Filters: ~50 to 200 counts/liter at 0.05µm • GORE® 0.02µm Filters: ~200 to 500 counts/liter at 0.05µm • Manufacturer now has data proving that GORE® Filters meet the requirements for ultrapure water applications that had previously required the more costly UF modules Water Quality Test Results Particles > 0.05 micron 1000 900 800 700 Situation 600 500 A major semiconductor manufacturer was seeking a lower-cost 400 300 alternative to ultrafiltration modules for an ultrapure water system. / Liter Counts 200 To compare filtration performance, parallel trials 100 ® 0 were run with GORE Filters and ultrafiltration (UF) modules. 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 Time (Hour) Trial Setup GORE® Filter 0.02µm Cartridge ® ® GORE Filter HR Cartridge • Single water source for GORE Filter and UF module UF Module • Single 10-inch GORE® Filter installed after pre-filter • Trial was run with GORE® 0.02µm Filters, then GORE® HR* Filters The manufacturer reported that in this • Water quality from UF module and GORE® Filters compared using ® UDI50 particle counter. application: “The GORE Filter provided *HR: High Retention filter. Testing demonstrates retention superior to typical 0.02µm filter the same particle removal function and efficiency as the UF.” — Senior UPW Engineer UPW loop Water Quality Test was performed post-UF Module and post-GORE® Filter Benefits Realized • GORE® Filters can meet the requirements for most of the GORE® manufacturer’s ultrapure water applications at significantly Filter Storage Tank lower cost than UF modules.
    [Show full text]
  • "Determination of Total Organic Carbon and Specific UV
    EPA Document #: EPA/600/R-05/055 METHOD 415.3 DETERMINATION OF TOTAL ORGANIC CARBON AND SPECIFIC UV ABSORBANCE AT 254 nm IN SOURCE WATER AND DRINKING WATER Revision 1.1 February, 2005 B. B. Potter, USEPA, Office of Research and Development, National Exposure Research Laboratory J. C. Wimsatt, The National Council On The Aging, Senior Environmental Employment Program NATIONAL EXPOSURE RESEARCH LABORATORY OFFICE OF RESEARCH AND DEVELOPMENT U.S. ENVIRONMENTAL PROTECTION AGENCY CINCINNATI, OHIO 45268 415.3 - 1 METHOD 415.3 DETERMINATION OF TOTAL ORGANIC CARBON AND SPECIFIC UV ABSORBANCE AT 254 nm IN SOURCE WATER AND DRINKING WATER 1.0 SCOPE AND APPLICATION 1.1 This method provides procedures for the determination of total organic carbon (TOC), dissolved organic carbon (DOC), and UV absorption at 254 nm (UVA) in source waters and drinking waters. The DOC and UVA determinations are used in the calculation of the Specific UV Absorbance (SUVA). For TOC and DOC analysis, the sample is acidified and the inorganic carbon (IC) is removed prior to analysis for organic carbon (OC) content using a TOC instrument system. The measurements of TOC and DOC are based on calibration with potassium hydrogen phthalate (KHP) standards. This method is not intended for use in the analysis of treated or untreated industrial wastewater discharges as those wastewater samples may damage or contaminate the instrument system(s). 1.2 The three (3) day, pooled organic carbon detection limit (OCDL) is based on the detection limit (DL) calculation.1 It is a statistical determination of precision, and may be below the level of quantitation.
    [Show full text]
  • Semiconductor Industry
    Semiconductor industry Heat transfer solutions for the semiconductor manufacturing industry In the microelectronics industry a the cleanroom, an area where the The following applications are all semiconductor fabrication plant environment is controlled to manufactured in a semicon fab: (commonly called a fab) is a factory eliminate all dust – even a single where devices such as integrated speck can ruin a microcircuit, which Microchips: Manufacturing of chips circuits are manufactured. A business has features much smaller than with integrated circuits. that operates a semiconductor fab for dust. The cleanroom must also be LED lighting: Manufacturing of LED the purpose of fabricating the designs dampened against vibration and lamps for lighting purposes. of other companies, such as fabless kept within narrow bands of PV industry: Manufacturing of solar semiconductor companies, is known temperature and humidity. cells, based on Si wafer technology or as a foundry. If a foundry does not also thin film technology. produce its own designs, it is known Controlling temperature and Flat panel displays: Manufacturing of as a pure-play semiconductor foundry. humidity is critical for minimizing flat panels for everything from mobile static electricity. phones and other handheld devices, Fabs require many expensive devices up to large size TV monitors. to function. The central part of a fab is Electronics: Manufacturing of printed circuit boards (PCB), computer and electronic components. Semiconductor plant Waste treatment The cleanroom Processing equipment Preparation of acids and chemicals Utility equipment Wafer preparation Water treatment PCW Water treatment UPW The principal layout and functions of would be the least complex, requiring capacities. Unique materials combined the fab are similar in all the industries.
    [Show full text]
  • Ultrapure Water
    Ultrapure Water General Filter Requirements Achieving and maintaining ultrapure water (UPW) is extremely important in light of its widespread presence throughout the manufacture of semiconductor integrated circuits. The technology of the industry has advanced so rapidly over the past few years that it has redefined cleanliness requirements, specifically with regard to the need for quantitatively removing colloidal silica, particles, total organic carbon (TOC), bacteria, pyrogens (bacterial fragments) and metal ions. A well-designed UPW system with strategically placed filters, will ensure achievement of this goal, since the type of filter selected in each of the key areas will make a measurable difference in ultimate quality. To meet the demands of a high-purity deionized (DI) water system, filters must: • Not contribute organic, particulate or metal ion contamination to the effluent stream • Not unload trapped contaminants or shed filter material • Be integrity testable to verify removal ratings • Perform identically from lot to lot • Have a low-pressure drop for long life and maximum economy. DI Water Filter A well-maintained UPW system will have a number of carefully selected filters and purifiers placed in strategic positions. A schematic of a DI water system is depicted below. The locations of the filters are representative of those found in a typical water system. Reverse Osmosis (RO) Pretreatment Microza* UNA System Pretreatment is required to operate RO units effectively and economically. The pretreatment will vary depending on the source of the incoming feed water. With surface water as the feed, conventional pretreatment may include such unit operations as coagulation, flocculation, settling, granular media filtration, and cartridge filtration.
    [Show full text]
  • Arium® Pro Ultrapure Water Systems Application-Orientated and Flexible to Meet the Highest Demands
    arium® pro Ultrapure Water Systems Application-Orientated and Flexible to Meet the Highest Demands Modular – selection of five systems specially for your application Flexible – perfect fit to every laboratory environment Easy to use – glass touch display with intuitive menu Water Purification in Laboratories navigation arium® pro ultrapure water systems Description Modular The arium® pro series offers a flexible and The selection of five systems contains module modular system which, compared to conven- components specially tailored to your appli- tional devices, demonstrates excellent cost cation. arium® pro supplies the desired level efficiency. of ultrapure water quality for any critical and standard applications. All systems meet and exceed the ASTM Type 1 water quality standards and ensure the best Flexible reproducible results in their class. Up to The space-saving installation of the device 2 liter of consistently high-quality ultrapure on, under, or above your workstation water with a conductivity of 0.055 µS/cm integrates it perfectly into any laboratory. (0 18.2 MO + cm) can be dispensed each The display-dispense unit can be flexible minute. The ultrapure water is virtually positioned. microorganism-free when a Sartopore® 2 150 end filter is used. Display with touch-function Even the opening of the dispensing valve The patented Sartorius technology, SD card can be controlled by the unique display. slot, long service life, and low maintenance Simply navigate intuitively in the easy-to- requirement distinguish the arium® pro use and clear menu navigation by lightly systems as easy-to-use, efficient and reliable touching the display – even with gloves. Type 1 ultrapure water systems.
    [Show full text]
  • Bacteria Inside Semiconductors As Potential Sensor Elements: Biochip Progress
    Sensors 2014, 14, 11225-11244; doi:10.3390/s140611225 OPEN ACCESS sensors ISSN 1424-8220 www.mdpi.com/journal/sensors Review Bacteria Inside Semiconductors as Potential Sensor Elements: Biochip Progress Vasu R. Sah 1 and Robert E. Baier 2,* 1 Harvard-MIT Health Sciences and Technology Division, Cambridge, MA 02139, USA; E-Mail: [email protected] 2 Industry/University Center for Biosurfaces, State University of New York at Buffalo, Buffalo, NY 14214, USA * Author to whom correspondence should be addressed; E-Mail: [email protected]; Tel.: +1-716-829-3560; Fax: +1-716-835-4872. Received: 9 April 2014; in revised form: 10 June 2014 / Accepted: 19 June 2014 / Published: 24 June 2014 Abstract: It was discovered at the beginning of this Century that living bacteria—and specifically the extremophile Pseudomonas syzgii—could be captured inside growing crystals of pure water-corroding semiconductors—specifically germanium—and thereby initiated pursuit of truly functional “biochip-based” biosensors. This observation was first made at the inside ultraviolet-illuminated walls of ultrapure water-flowing semiconductor fabrication facilities (fabs) and has since been, not as perfectly, replicated in simpler flow cell systems for chip manufacture, described here. Recognizing the potential importance of these adducts as optical switches, for example, or probes of metabolic events, the influences of the fabs and their components on the crystal nucleation and growth phenomena now identified are reviewed and discussed with regard to further research needs. For example, optical beams of current photonic circuits can be more easily modulated by integral embedded cells into electrical signals on semiconductors. Such research responds to a recently published Grand Challenge in ceramic science, designing and synthesizing oxide electronics, surfaces, interfaces and nanoscale structures that can be tuned by biological stimuli, to reveal phenomena not otherwise possible with conventional semiconductor electronics.
    [Show full text]
  • Ultrapure Water – the Standard for Resistivity Measurements of Ultrapure Water
    Ultrapure Water – The Standard for Resistivity Measurements of Ultrapure Water Anthony C. Bevilacqua, Ph.D.1 Thornton Associates, Inc. 1432 Main Street Waltham, Massachusetts 02154 Phone (781) 890-3399 Phone (800) 642-4418 FAX (781) 890-5507 email [email protected] Abstract For years, resistivity/conductivity2 instrumentation has been used as a reliable indicator of ionic water quality, especially for ultrapure water (UPW). Traditionally, the instrumentation is procured, installed, powered up, and perhaps connected to a PLC, strip chart recorder, or a LAN. After that, the instrument and sensor receive no attention until a problem arises. Today, continuous calibration and verification are key elements in any QC and QA program. In recent years, users have been using standard solutions to calibrate sensors. However, a major complaint is that these solutions are not in the user’s operational range, and thus are not ideal standards. Numerous standard solutions have been proposed, but none possess all of the desirable requirements : ease-of-preparation, resistivity value in the range of operation, impervious to air and other contamination, and verifiable. During the last several years, as a result of our investigations into the relationship between resistivity and temperature for UPW, we have developed a methodology for calibration that meet all of the criteria stated above. We will provide data to support 5 primary conclusions : 1. The relationship between temperature and resistivity for UPW is well known. 2. Resistivity sensors (for use in UPW) can be calibrated in high conductivity ASTM standard solutions under 1 Please see Acknowledgements for complete listing of contributors. 2 Resistivity and conductivity are identical measurements, differing only in the units of expression.
    [Show full text]
  • Filters in Electronics and Semiconductor Ultrapure Water Systems – an Overview
    Filters in Electronics and Semiconductor Ultrapure Water Systems – An Overview The general practice in semiconductor ultrapure water (UPW) system operation is to seal the entire system from the second reverse osmosis unit downstream and not open it for 2 to 3 years. The reason for this is that it takes a long time for a system to ‘rinse up’ to ultra-purity after it has been opened, and the entire plant must be shut down during that time. Downtime means lost revenue, which can add up quickly in the semiconductor business. The first RO unit in the system shown in Figure 1 is the equivalent of a prefilter in most other systems. The second RO unit only removes trace contaminants remaining after the first RO unit and the membranes are expected to last for 3 years or more with no cleaning or other maintenance required. With the exception of the pre-RO filters, all of the filters are expected to operate at peak efficiency for the entire time a set of membranes is in place. Below are brief descriptions of the filters shown in Figure 1. Following that overview is a list of possible filter media for each application. Figure 1 - Filters in an Electronics/Semiconductor Water System A - Large Particle Trap Filter B - Carbon Fines Trap Filter C - Resin Trap Filter SummaryApplication D - RO Prefilter E - Tank Vent Filter F - Loop Filter G - Cold UPDI Water POU Filter H - Hot UPDI Water POU Filter Filtration Steps in Ultrapure Water Treatment In most cases, the water entering a reverse osmosis (RO) system is filtered to remove larger particles, larger meaning bigger than 1 to 5 microns, depending on the system.
    [Show full text]
  • Ultrapure Water Monitoring Guidelines Booklet
    Ultrapure Water Monitoring Guidelines Revision 2.0 Ultrapure Water Guidelines Revision 2.0 Copyright Notice Copyright © 2007 Air Liquide Electronics US L.P. reserved No part of this publication may be copied or distributed, transmitted, or transcribed in any form or by any means, electronic, mechanical, magnetic, manual, or otherwise, without the express written permission of Air Liquide America L.P. For copies of these guidelines, please write or call: Balazs Analytical Services Air Liquide Electronics US L.P. 46409 Landing Parkway Fremont, CA 94538 USA Tel: 510-624-4000 | Fax: 510-624-4026 email: [email protected] website: www.balazs.com The Balazs™ Ultrapure Water Guidelines Rev 2.0 - 2 - Table of Contents These guidelines have been divided into sections with a focus on the needs of different users. Because some information pertains to more than one area, it may be appear in more than one section of this document, although not always in the exact same presentation. Introduction & What’s New………………………………………………………………………..….4 ITRS Information & Definitions..........…………………………………..…………...……….…………......6 Increased Focus on the Wafer Environment……...................................................................10 Innovative New Tests & Redeploying Existing Tests……………………………………..……..12 Product Type vs. UPW Guidelines…………………………………………………………..…....18 Appendices: I How to Use the Data: Detection Limits vs. Reporting Limits………….................................22 II Comprehensive UPW Monitoring Recommendations………...……………….…………...…..26 III Guidelines
    [Show full text]
  • Ultraviolet Purification Application Information
    For more information: Philips Lighting B.V. UV Health and Wellness Zwaanhoefstraat 2 4702 LC Roosendaal The Netherlands Tel:+ 31 165 577906 Email: [email protected] Web: www.philips.com/uvpurification Ultraviolet purification application information Perfection preserved by the purest of light ©2006 Koninklijke Philips Electronics N.V. All rights reserved. Data subject to change 3222 635 61801 11/06 Contents Preface 4 1. Micro-organisms General 5 1.1 Bacteria and bacterial spores 5 1.1.1 Bacteria 5 1.1.2 Bacterial spores 5 1.2 Moulds and yeasts 5 1.2.1 Moulds 6 1.2.2 Yeasts 6 1.3 Viruses 6 2. Ultraviolet light General 8 2.1 Generation and characteristics of short-wave UV light 9 2.2 Germicidal action 10 3. Purification by means of ultraviolet lamps General 13 3.1 Air purification 13 3.1.1 Ceiling-mounted Philips TUV lamps 14 3.1.2 Philips TUV lamps for upper-air irradiation using upward facing reflectors 14 3.1.3 Philips TUV lamps for irradiation using downward facing reflectors 15 3.1.4 Philips TUV lamps in air ducts 15 3.1.5 Philips TUV lamps in stand alone units 16 3.2 Surface purification 17 3.3 Liquid purification 17 4. Applications General 20 4.1 Water purification 20 4.1.1 Municipal waste water 21 4.1.2 Municipal drinking water 21 4.1.3 Residential drinking water 22 4.1.4 Water coolers,dispensers 22 4.1.5 Semiconductors process water 22 4.1.6 Spas and swimming pools 23 4.1.7 Cooling towers 23 4.1.8 Miscellaneous 23 4.2 Air purification 24 4.3 Cooling coils 25 4.4 Philips germicidal lamps and their application 25 5.
    [Show full text]
  • Thermo Scientific Barnstead Genpure Ultrapure Water System
    Thermo Scientific Barnstead GenPure Ultrapure water system Operating Instruction 50131265 Revision E June 2016 © 2016 Thermo Fisher Scientific Inc. All rights reserved. Thermo Fisher Scientific Inc. provides this document to its customers with a product purchase to use in the product operation. This document is copyright protected and any reproduction of the whole or any part of this document is strictly prohibited, except with the written authorization of Thermo Fisher Scientific Inc. The contents of this document are subject to change without notice. All technical information in this document is for reference purposes only. System configurations and specifications in this document supersede all previous information received by the purchaser. Thermo Fisher Scientific Inc. makes no representations that this document is complete, accurate or error- free and assumes no responsibility and will not be liable for any errors, omissions, damage or loss that might result from any use of this document, even if the information in the document is followed properly. This document is not part of any sales contract between Thermo Fisher Scientific Inc. and a purchaser. This document shall in no way govern or modify any Terms and Conditions of Sale, which Terms and Conditions of Sale shall govern all conflicting information between the two documents. Release history: For Research Use Only. Not for use in diagnostic procedures. P Preface © 2016 Thermo Fisher Scientific Inc. All rights reserved. These operating instructions are protected by copyright. Rights resulting thereof, particularly reprint, photomechanical or digital postprocessing or reproduction, even in part, are only allowed with the written consent of Thermo Electron LED GmbH.
    [Show full text]