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2. The Clear Industry Leader The world leader in serving science We are the leading provider of analytical instruments, equipment, reagents and consumables, software and services for research, analysis, discovery and diagnostics.
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4. Environmental Instruments Division Vision Vision We are committed to being the global leader in environmental monitoring applications where our market knowledge, customer intimacy, application expertise, and instrument technology help our customers make the world healthier, cleaner, and safer. Key Global Trends Demographics Developing World Industrialization Power Generation Requirements Security Concerns
6. Environmental Instruments Division Vision We are committed to being the global leader in environmental monitoring applications where our market knowledge, customer intimacy, application expertise, and instrument technology help our customers make the world healthier, cleaner, and safer. Key Global Trends Demographics Rapid Industrialization Environmental Awareness Power Generation Requirements Security Concerns
7. A Worthy Mission We enable our customers to make the world healthier, cleaner and safer Healthier Cleaner Safer
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11. We are committed to being the global leader in environmental monitoring applications where our market knowledge, instrument technology and field experience continues to help customers succeed in protecting people and the environment.
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13. Your Integrated Solutions Provider Service and Spare Parts Design Build Project Management Technical Support Training The Complete Solution Air Quality Monitoring
33. Analysers And –Measuring Technique Enview Windows Based Data Logger 146i Mass flow Controller Dilution Based Calibrator AE31 Optical transmission absorption BLACK CARBON A73022 Gas Chromatograph With PID Detector BENZENE FH62C14 Beta Attenuation SPM 48i Gas Filter Correlation CO 49i UV Absorption O 3 42 i Chemiluminescence Nox Model Technique Pollutant
49. i Series Platform – Common Electronics and Modular Measurement System Common Electronics Section Measurement System Module
50. i Series Common Electronics – Rear View RS485 Expansion Connector (External Converter Boxes) RS232/485 Serial Ports Ethernet Port Digital Output (Relay) Port Common I/O Connector Expansion I/O Connector Measurement System Connections AC Power Connector and Fuse
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54. Carbon Monoxide Gas Filter Correlation Detector & Pre-Amp Assembly Pressure Sensor Flow Sensor Chopper Motor Correlation Wheel Chopper Band-Pass Filter IR Source Multi-Pass Sample Cell Sample Pump Sample In
67. AQMS Typical Overview Dust Monitor NOX Analyser O3 Analyser CO Analyser Multi Gas Calibrator Zero Air unit PM 10 head Gas Sampler Head Moisture Trap Air Sample Lines To Gas Analysers Gas Cylinders Zero Air For Dilution Calibration Gas Lines Known Concentration Calibration Gas To Analysers Benzene Analyser
70. Work Flow Sheet ENQUIRY CUSTOMER BRANCH / MARKETING OFFER BRANCH / MARKETING CUSTOMER ORDER ACKNOLEDGEMENT BRANCH / MARKETING CUSTOMER PO / PR CUSTOMER BRANCH MARKETING Preparation of Job Transmittal BRANCH / MARKETING SYSTEM & DESIGN RECIEPT OF JT BRANCH/MARKETTING SYSTEM & DESIGN TQ. ( IF ANY ) SYSTEM & DESIGN BRANCH/MARKETTING REVIEW OF JT ( TECH. ) SYSTEM & DESIGN SYSTEM & DESIGN REPLY OF TQ. MARKETING SYSTEM & DESIGN INTEGRATION & MFG. OF SYSTEM SYSTEM & DESIGN PRODUCTION INTERNAL INSPECTION SYSTEM & DESIGN Q A ATTEND. OF PUNCH POINT PRODUCTION SYSTEM & DESIGN PUNCH POINT Q A SYSTEM & DESIGN COMPLIANCE REPORT PRODUCTION Q A FAT SYSTEM & DESIGN & QA CUSTOMER TPI PACKING FORWARDING STORE TRANSPORTER DISP. CLEARANCE CUSTOMER PRODUCTION / SYSTEM & DESIGN PREP. OF DRAWNG QAP & SUBMIT TO CUSTOMER SYSTEM & DESIGN CUSTOMER CONSULTANT PREP. & REL. OF BILL OF MATRL. SYSTEM & DESIGN PURCHASE & STORE COMMENT FROM CUST. / CONSULT. CUSTOMER/CONSULTANT SYSTEM & DESIGN ENQUIRY TO VENDOR SYSTEM & DESIGN VENDOR REV. SUBMISSION OF DRG. / QAP SYSTEM & DESIGN CUSTOMER CONSULTANT OFFER FROM VENDOR VENDOR SYSTEM & DESIGN APPROVED OF DRG. / QAP SYSTEM & DESIGN CUSTOMER / CONSULTANT EVALUATION OF ORDER SYSTEM & DESIGN PURCHASE PREPARE DETAIL DRG. SYSTEM & DESIGN PRODUCTION RELEASE OF PO PURCHASE VENDOR REC. OF MATERIAL VENDOR STORE INSPECTION OF MATERIAL Q A STORE ACCEPTED STORE STORE ISSUE OF MATERIAL SYSTEM & DESIGN PRODUCTION REJECTION ( IF ANY ) PURCHASE & STORE VENDOR A START ‘A’ B B C C C ISSUING DEPARTMENT RECEIVING DEPARTMENT ACTIVITY FLOW LINK LEGENDS - FAT CALL SYSTEM & DESIGN CUST. / TPI
71. OUR FACILITY IN BRIEF Team of Franklin U S trained Engineers & Technicians capable of testing calibration of 3 System / day Q A Instrument Air at 4.6 kg/m2, Dust & Oil free at shop floor & Lab Instrument Air Diesel Generator Backup 160 kVA, 415 V AC, 3Ph + N from MSEB Normal 160 kVA, 415 V AC, 3Ph + N from MSEB Power Supply Material Handling System - Hydraulic forklift & Trolly for material movement Over Head Crane - 10 Ton. Lab ( for testing ) - 1200 Sq. Ft. Store - 1200 Sq. Ft. Floor Area - 16 meter ( L ) x 7 meter ( W ) Work Shop 3. AAQMS System for M/S NTPC through M/S Yokogawa 2. AAQMS System for M/S Tamilnadu Agricultural University. 1. AAQMS System for M/S Sunflag Nagpur. Present Assignments: Team of Experience manager with technician like Mechanical fitter, Tube fitter, Electrician, Calibrator technician etc. System Integration Team of Experience Technical Team worked for previous AAQMS station for NTPC Design & Engineering
80. Multi Station Communication TCP/IP, Cellular, Radio, Leased Line Communication Environment Central Station with Comm H/W AQI Site AQI Site AQI Site AQI Site
89. Commercial DAHS Functions Report Generation Emission Data Recording Plant Computer Interface Calibration Control and Recording Emission Monitor Control Emission Data Display DAHS Functions
90. GSM modem PLC GSM modem SCADA RS232 CABLE RS232 CABLE SIM CARD-Must be data/fax connectivity enabled For Communication using GSM modem following requirements are must. PLC with dial up option SCADA supporting for dial up option. GSM MODEM SET UP FOR DAIL UP CONNECTION The Dial up connection is established between the PLC and SCADA when SCADA dials to the remote PLC. It establishes 9600 ,8,N,1 wireless link between the SCADA and PLC
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93. COMMUNICATION AQM/CEM Central Data Station ST 10 EnviDAS Software LCD Hi definition Display RS232/RS 485 /GSM Modem ST 4 ST 1 ST 3 ST 2 ST 5 LCD Hi definition Display Delhi Pune
97. Service Organization 3 Service Engineers 2 Open Positions 1 Service Engineer 1 Technician 1 Service Engineer 1 Technician 2 Sales/Service Engineers 1 Service Manager 1 Service Engineer 1 Service Engineer 1 Service Engineer 1 Technician Open
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Notes de l'éditeur
Thermo Electron and Fisher Scientific merged in November 2006, creating Thermo Fisher Scientific, the world leader in serving science. This was actually Fisher Scientific’s tagline, and it’s been adopted for the new combined company because it accurately reflects what we do. We deliver what our customers need for their important work in research, analysis, discovery and diagnostics The analytical instruments that help scientists research, equipment to keep labs running, bioreagents and chemicals used in experiments, consumables, software and services. All from one company!
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Thermo Fisher Scientific products will be used for a range of applications, from high-end research to manufacturing to environmental monitoring and homeland security. We provide the tools to improve quality of results, whether customers are analyzing proteins in blood, the quality of air and water, or the steel used to make our cars.
Over the years, the air quality group product offering has expanded from individual gaseous criteria pollutant analyzers to encompass a broad range of particulate monitors, toxic gas sensors, volatile organic compounds (VOC) analyzers and completely integrated ambient and stack monitoring systems.
Modern Manufacturing Facilities and Processes: Global Service Organization with over # locations worldwide
Voici la liste des polluants que l’on mesure aux émissions des sites industriels 1- Il faut se souvenir que seulement 10 ans auparavant, seules les 3 premières lignes et demi étaient alors d’actualité. 2- Non seulement les polluants ajoutés sont considérés comme les plus agressifs puisque l’on évoque des substances cancérigènes telles les dérivés benzéniques ou les dioxines & furannes, mais encore comme vous pouvez le constater sur cette représentation graphique, les concentrations massiques tendent vers l’infiniment petit. Bien sur, nous allons devoir évoluer, nous adapter. Mais surtout aujourd’hui nous en sommes conscient: notre avenir reste grand ouvert, à nous de saisir les bonnes opportunités.
Our longtime Indian Partner, Leading Instrumentation Company Chemito Instruments Private Limited a group company of Toshniwal Instruments India Pvt. Ltd supports ENVIRONNEMENT S.A. Technology transfers and extended bilateral cooperation over the last eighteen years have led Environnement s.a to strengthen its base in India as result of business ties with the Indian leader in Integrated Systems for Environment Monitoring both Ambient & Emission .
This is an example of a typical ambient air monitoring station containing real-time gaseous ambient monitors along with particulate monitors. This station is located in Brazil as part of a ten (10) ambient monitoring station network. The station is surrounded by a fence for security purposes. As with most ambient air monitoring stations, electrical power is needed to run the battery of monitors located inside the trailer. The monitors are located inside the trailer to protect them from the elements. Notice the air conditioning along the side of the building to provide inside air at a constant temperature. The mask on top of the building are the entry points for different monitors to draw outside air down through the mask into the analyzer in the building. The mask with the “tee pee” is the sample head for the PM-10 sampler located inside the building. The next couple of slides will illustrate the different types of particulate matter (PM) samplers, from TSP to PM-10 to PM-2.5 samplers.
Now that we have seen the various ambient air monitoring programs, lets take a look at the cost of a single station to be fully equipped with monitoring the ambient air for EPA’s NAAQSs. Based upon the graphic, it would take around $82,000 to fully equip one (1) ambient air monitoring station for monitoring SO 2 , NO x , O 3 , CO, PM-2.5, meteorological parameters (I.e., wind speed, direction, stability, temperature, rainfall etc.), and visibility. All systems would be real-time continuous monitoring systems.
CEM systems incorporate one of three sample acquisition techniques: dilution-extractive, extractive (i.e., sampling without dilution of the sample gas), and in-situ. Inherent differences exist among the three sampling techniques, and thus each technique has distinct strengths and weaknesses, which must be carefully evaluated when selecting an appropriate technique for a specific application. The sample acquisition techniques chosen by Part 75 affected utility companies are presented in Table 1. The following sections address the principle of operation for the most widely used and currently available equipment, and technological advancements for each sample acquisition technique.
Dilution-extractive probe systems require a constant source of contamination free dilution air. The air supply should be dry (-20 to -40 F) and delivered at 90 10 psig. Additionally, the dilution air should be free of oils, particulates, CO 2 , NO x , and SO 2 . A plant’s compressed air system does not generally provide dilution air to the needed specification. Therefore, an additional air-cleanup system is required. In Part 75 dilution-extractive CEMS the air-cleanup system is the critical component of the dilution-extractive system. Figure 4 is a schematic of a typical dilution air-cleanup subsystem. Compressed air either from the plant's compressed air supply or from a dedicated air compressor is first filtered for particulates, then liquid and oils condensate by a coalescing filter. Oil removal is necessary to prevent the contamination of silica gel or other drying agents in the heatless air dryer. Additional drying of the dilution air is performed by a heatless dryer that can dry the air to approximately -100 F. The CO 2 extractor utilizes two columns with different adsorbent materials to adsorb any CO 2 in the dilution air. Some air cleaning systems may add a CO to CO 2 converter (not shown in Figure 4) before the CO 2 extractor if their analyzers respond to interferences from CO. A charcoal filter trap (not shown in Figure 4) may also be added to remove any hydrocarbons that may be in the dilution air. An additional desiccant dryer (not shown in Figure 4) may be added to provide additional moisture removal. A submicron filter removes any particulates that may be released from the upstream desiccant traps.
Trend charts aree an excellent way to show variations in pollutants over time. The reviewer can quickly look at the chart and determine the characteristics of each pollutant over the period of time. Pollutant concentrations can quickly be observed without having to go to tables of data.
Based upon the received environmental data, real-time trend charts can be developed and displayed for review. Another important parameter in ambient air monitoring is averaging times for sampled pollutants. The averaging times used for determining pollutant concentrations is typically determined by the duration required to collect a meaningful sample and by the intended use of the collected data. For example, 24-hour averages would be appropriate for long-term air quality trends. For pollutants that reach peak levels for short periods of time such as O 3 , a 1 hour or 8 hour averaging time would be more desirable. Real-time or continuous air monitoring instruments provide a continuous record of concentrations that can fluctuate over time. Therefore, data from continuous air monitoring instruments are integrated in order to provide hourly average concentrations for comparison to respective air quality standards. The NAAQS averaging times are: 24-hour and annual average for PM 10 , a 1-hour average for Ozone (O 3 ) and a 3-hour, 24-hour and annual average for SO 2 . Concentrations of PM 10 averaged over an entire year may be based on daily recordings or on only a more limited number of 24-hour samples. The graphic illustrates an example of the differences between real-time, 1-hour, and 4-hour averaging times for gaseous pollutants. Notice that human exposure to gaseous emissions can at times be higher than average recorded levels.