Friday, 21 September 2018

SOP FOR NITROGEN OXIDES (NOx)

1.0       Scope:
1.1       This standard prescribes a method for measurement of nitrogen oxides (as NOx) in air.
2.0       Principle and Applicability:
2.1       Nitrogen oxides as nitrogen dioxide are collected by bubbling air through a sodium hydroxide solution to form a stable solution of sodium solution of sodium nitrite. The nitrite ion produced during sampling is determined colorimetrically by reacting the exposed absorbing reagent with phosphoric acid, sulphanilamide, and N (I-naphthyl) ethylenediamine dihydrochloride.
2.2       The method is applicable to collection of 24 hour sample in the field and subsequent analysis in the laboratory.
3.0       Range and Sensitivity:
3.1       The range of the analysis is 0.01 to 1.5 µg NO2/ml. With 50 ml absorbing reagent and a sampling rate of 200 ml/min for 24 hours, the range of the method is 20 to 740 µg/m3 (0.01 to 0.4 ppm) nitrogen dioxide.
3.2       A concentration of 0.01 µg oxides of nitrogen ( as NO2/ml) will produce an absorbance of 0.005 using 1-cm cells.         
4.0       Interferences:
4.1       The interference of sulphur dioxide is eliminated by converting it to sulphuric acid with hydrogen peroxide before analysis.
 5.0       Apparatus:
5.1       Absorber – Polypropylene tubes 164 x 30 mm, equipped with polypropylene two port closures. Rubber stopper cause high and varying black valves and should not be used. A gas dispersion tube with a fritted end of porosity B (70 to 100 µm maximum pore diameter) is used.
5.2       Spectrophotometer – capable of measuring absorbance at 540 nm. Band width is not critical.
6.0       Reagents:
6.1       Absorbing Reagents – Disolve 4.0 g of sodium hydroxide in distilled water and dilute to 1000 ml.
6.2       Sulphanilamide – Dissolve 20 g of sulphanilamide in 700 ml of distilled water. Add, with mixing, 50 ml of concentrated phosphoric acid (85 %) amnd dilute to 1000 ml. this solution is stable for a month if refrigerated.
6.3       NEDA Solution – Dissolve 0.5 g of N (l-naphthyl) ethylenediamine dihydrochloride in 500 ml distilled water. This solution is stable for a month if refrigerated and protected from light.
6.4       Hydrogen Peroxide – Dilute 0.2 ml of 30% hydrogen peroxide to 250 ml with distilled water. The solution may be used for a month if protected from light.
6.5       Standard Nitrite Solution – Dissolve sufficient desiccated sodium nitrite [ NaNO2 (assay of 97 % or greater)] and dilute with distilled water to 1000 ml so that a solution containing 1000 µg NO2/ml is obtained. The amount of sodium nitrite to use is calculated as follows:
                                                           
1.500
                                                G = ---------------          x          100
                                                                A
Where
            G         =          amount in g of sodium nitrite;
            1.500   =          Gravimetric factor in converting NO2 into sodium nitrites; and
            A          =          assay, percent.
7.0       Procedure:
7.1       Sampling – Assemble; the sampling train including the absorber, critical flow control device and pump. Add 50 ml absorbing reagent to the absorber. Disconnect funnel, insert calibrated flow meter, and measure flow before sampling. If glow rate before sampling is less than 85 % of needle calibration, check for leak or change filter as necessary. Remove flow meter and replace funnal. Sample for 24 hours from midnight to midnight and measure flow at the end of sampling period.
7.2       Analysis – Replace any water lost by evaporation during sampling. Pipette 10 ml of the collected sample into a test-tube. Add 1.0 ml of hydrogen peroxide solution, 10.0 ml of sulphanilamide solution, and 1.4 ml of NEDA solution with through mixing through mixing after the addition of each reagent. Prepare a blank in the same manner using interval, measure the absorbing reagent. After a 10 min colour-development interval, measure the absorbance at 540 nm against the blank. Read µg NO2/ml from the standard curve (see 8.2).


8.0       Calibration:
            8.1       Sampling
8.1.1    Caligration of Flow meter – Using a wet test meter and a stopwatch, determine the rates of airflow (ml/min) through the flow meter at several ball positions. Plot ball positions versus flow rates.
8.2.2    Calibration of Hypodermic needle – Connect the calibration flow meter, the needle to be calibrated, and the source of vacuum in such a way that the direction of  airflow through the needle is the same as in the sampling train. Read the position of the ball and determine flow rate in ml/min from the calibration chart prepared in 8.1.1. Reject all needles not having flow rate of 190 to 210 ml/min before sampling.
8.2       Calibration Curve – Dilute 5.0 ml of the 1000 µg NO2/ml solution to 200 ml with absorbing reagent. This solution contains 25 µg NO2/ml. Pipette 1, 2, 5 and 15 ml of the 25 µg NO2/ml solution into 50, 50, 100 and 250 volumetric flasks and dilute to the mark with absorbing reagent. The solutions contain 0.50, 1.00, 1.25, and 1.50 µg NO2/ml respectively. Run standards as instructed in 7.2. Plot absorbance versus µg NO2/ml.
9.0       Calculation:
            9.1       Calculation the volume of air samples as follows:
                                                            F1 + F2
                                                = ------------------------- x T x 10-6
                                                                2
                        where
                                    V          =          volume of air sampled, m3;
                                    F1        =          measured flow rate before sampling, ml/min;
                                    F2        =          measured flow rate after sampling, ml/min; and
                                    T          =          time of sampling, min.
            9.2       Calculate the concentration of nitrogen dioxide as follows:
                                                                                                ( µg NO2/ml) x 25
                        Mass of nitrogen dioxide in µg per m3 = -------------------------------
                                                                                                            V x 0.35
                        Where
                                    25        =          volume of absorbing reagent used in sampling, ml;
                                    V          =          volume of air sampled, m3; and
                                    0.35     =          overall average efficiency.
                        9.2.1    If desired, concentration of nitrogen dioxide may be calculated as ppm NO2.                                            
                                                NO2, ppm = ( µg NO2/m3) x 5.32 10-4                         

SOP FOR OPERATING PROCEDURE OF HIGH PERFORMANCE LIQUID CHROMATORGAPHY SYSTEM SHIMADZU (Model: LC 2010CHT).


1.0                       Objective:
               To provide written procedure for operation of High Performance Liquid                         Chromatography system EQU-INS-201.
2.0                       Scope:
               This SOP covers operation of High Performance Liquid Chromatography system make: Shimadzu (Model: LC 2010CHT).
3.0                       Responsibility:
Jr. Research Officer, Research Officer: Responsible for operation, Calibration and maintenance of the instrument as per procedure.
Head of Department: Responsible for calibration and maintenance, timely as per schedule.
QA Officer/ QA Manager: Review the record and governing the document.
4.0          Procedure:
4.1          Ensure that the instrument is visibly clean and free from dust.
4.2          Starting UP and Connecting Instruments and Class –VP Software:
4.2.1              Turn on the instruments.
4.2.2          After confirming that the instrument is started up, turn the PC power ON, and select and click on Start icon, Select programs and chromatography and click on ‘CLASS VP’. OR double click on ‘CLASS VP’ icon on desktop. Display shows Class VP dialog box.
4.2.3               Select and double click on the instrument icon in the Class VP dialog box.  
4.2.4              Enter a user name ‘System’ and password ‘2001’; to log in to ‘CLASS-VP’, the instrument window opens.
4.3          Click on pump icon or and fed the require flow rate and concentration of solvent.
4.4          Purging Mobile phase and Rinse Solution:
4.4.1       Click on the ‘PURGE’ icon on the control toolbar. Select the flow lines to be purged and set purge time for each.
4.4.2              Clicking on the purge button display a window showing the progress of purge, and the auto purge starts.
4.4.3              If stop the purging click ‘Mobile Phase Stop’ button.
4.4                    Click on ‘PUMP’ icon into instrument window; Select the mode of pump as Isocratic flow or low pressure Gradient, feed the flow rate and concentration of solvent in %, adds maximum pressure and minimum pressure value.
4.5                    Create a New Method File or Modify Method:
4.6.1          Choose Open or ‘New’ option from the method in File menu in the instrument window, Method dialog box display on the screen.
4.6.2        Select the commands in the Method menu from the Option tab, Select and click on Properties, Method properties dialog box display, feed the require parameters, then click on ‘OK’ button.
4.6.3         Select and click on Integration Events in method menu, Integration Events dialog box display, feed the require parameters, and then click on ‘OK’ button.
4.6.4         Select and click on Peaks/Groups in method menu, Peaks/Groups dialog box display; add Component name, Retention time etc. and then click on ‘OK’.
4.6.5       Select and click on Advanced, Advanced method option dialog box display, Select Component name, Retention time, Area, Asymmetry, and Resolution etc. 
4.6.6                 Select and click on Instrument Setup in method menu, Instrument dialog box display, and click on ‘PUMP’ button.
4.6.7              Select the mode of pump as Isocratic flow or low pressure Gradient, feed the flow rate and concentration of solvent in %, adds maximum pressure and minimum pressure value.
4.6.8               Click on ‘Oven’ button, add temperature maximum up to 60° and add Oven temperature.
4.6.9             Click on ‘Detector’ button, Select D2 lamp, Polarity, Cell temperature low, add wavelength on Channel 1 and require for Channel 2, add sensitivity and select Acquisition On, add require Run time.
4.6.10             Click on ‘Controller’ and select Degasser.
4.6.11    Click on ‘Time Program’ and select module (Pump, Oven, Detector etc.) add require time and program.

4.6.12          Select and click on System Suitability in method menu, System Suitability dialog box display, select the require parameters i.e. Area, Retention time, Asymmetry, Resolution etc. and then click on ‘OK’.
4.6.13       After completion all the parameters save method from file menu. Enter or Select path and full file name.
4.7          Create a New Sequence File or Modify Sequence :   
4.7.1               Choose Open or ‘New’ option from the Data in File menu in the instrument window, Data dialog box display on the screen, create a new folder and give name of the folder.
4.7.2           Choose Open or ‘New’ option from the sequence in File menu in the instrument window, sequence dialog box display on the screen.
4.7.3           In Run information add Sample ID name, Select method, Select Data path, and give Data file name.
4.7.4                 Add Amount values as per requirement.
4.7.5                 In Auto sampler feed the parameters, start vial, end vial, injection volume and Repetitions per run, and then click on ‘OK’, sequence file display on the screen.  
4.7.6     In sequence file feed parameter sample identification, vial number, injection volume respectively.
4.7.7              After completion all the parameters save sequence from file menu. Enter or Select path and full file name.
4.7.8            After completion all parameters, right click of the mouse, select and click on start sequence.
4.8          Creating Report Templates:
4.8.1        Click on the Edit Custom Report button or Select and click on Custom Report, Custom Report dialog box display.
 4.8.2       Right click of the mouse, select report header and feed parameters, select graph and drag                     the      graph on custom report dialog box display, peak report. After completion feed all                       parameters save template file.
4.8.3             Select print in file menu, and give print command for printing.
4.9                    Opening of Instrument Off Line:
4.9.1       Select and double click on the instrument off line icon in the Class VP dialog box.  
4.9.2               Enter a user name ‘System’ and password ‘2001’; to log in to ‘CLASS-VP’, the instrument off line window opens.
4.10        COLUMN FLUSHING:
4.10.1     After completion of analysis clean the column by the following solvents as mobile phase.
4.10.2        For reverse phase columns:
4.10.2.1          Flush with the same mobile phase, which was need for analysis for 15 minutes with  1.0 ml flow rate.
4.10.2.2          Flush with water for 30 minutes.
4.10.2.3     Then flush with methanol for 15 minutes at a flow rate of 1.0 ml / minute.
4.10.3        For normal phase columns:
4.10.3.1     Flush with the same mobile phase which was need for the analysis for 15 minutes at a  flow rate of 1.0 ml / minute.
4.10.3.2     Then flush with n -Hexane at a flow rate of 1.0 ml / minute.

4.10.4        Change over from Reverse phase to Normal phase :
4.10.4.1     After the analysis is over flush the column with water for 30 minutes, followed by             Methanol for 15 minutes.
4.10.4.2          Remove the reverse phase column (C18 or C8) and attach a dead volume instead of
4.10.4.3                              column.

4.10.4.3     Now flush the system with acetonitrile followed by chloroform and n -hexane (all 15  minutes each).
4.10.4.4     Remove dead volume and fix a normal phase column (e.g. silica)         
4.10.4.5     Continue flushing for 15 minutes.
4.10.4.6     Maintain the reverse phase column in methanol.
4.10.5        Change over from normal to reverse phase:
4.10.5.1     After the analysis is over flush the columns with n- hexane for 15 minutes.
4.10.5.2     Remove the normal phase column (C18 or C8) and attach a dead volume instead of          column.
4.10.5.3     Flush the system with chloroform followed by acetonitrile and methanol for 15            minutes.
4.10.5.4     Now fix the reverse phase column and flush the column for 15 minutes.
4.10.5.5          Continue the analysis in reverse phase. Store the normal phase column in n -hexane.
4.11           Enter the details in HPLC usage logbook as per given in Annexure –1.
5.0             Safety precaution:
5.1             After analysis run the system wash with water for 30 minutes if buffer solution used in        mobile phase followed by methanol for 15 minutes.
6.0             Routine maintenance:
6.1             Clean the instrument by dry cloth.
6.2             Clean the system with hot water without connecting the column. Than methanol and
                  finally with water.
6.3              Sonicate the suction filter with 2 M nitric acid and than water and than water.

SOP FOR OPERATING PROCEDURE OF GAS CHROMATOGRAPHY AGILENT 6890N


1.0                    Objective:
               The objective of this Operating procedure is to lay down the procedure for Operating the Gas Chromatography Agilent 6890N.
2.0                      Scope:
               This procedure covers operation of Gas Chromatography.
3.0                    Responsibility:
              Jr. Research Officer, Research Officer: Responsible for operation and maintenance of
               the instrument as per procedure.
Head of Department: Responsible for maintenance, timely as per   schedule.
QA Officer/QA Manager: Review the records and governing the document
4.0          Procedure:
4.1       
   I.     Ensure that the instrument is visibly clean and free from dust.
  II.     The room temperature should be maintained between 10 to 30°C and relative humidity 
            Should be maintained between 30 to 80 %
III.    Avoid direct exposure to air-blow from air conditioners.
IV.    Avoid exposure to direct sunlight and vibrations.
V.     Avoid from equipment which generates strong magnetic field.
4.2          Start UP Procedure:
 4.2.1       Affix the require column (Capillary or packed) in to the column oven.
 4.2.2       Open the valve of gas cylinder of Z - air, Hydrogen and carrier gas (Nitrogen or Helium) and checked the pressure and leakage with 50 % v/v Isopropyl Alcohol solution.      
 4.2.3       Now Switch ON the Mains and Instrument. Switch on the computer.
4.3          Setting Instrument Parameters:
4.3.1      After Switch On instrument will display Oven Off message. Press oven key and press on key. The instrument started temperature increase of previous set temperature value.
4.3.2     Press Oven key, Add initial temperature, initial time and Rate (if required) with numerical key and press Enter key to confirm the vale.
4.3.3     If adding rate 1 the next oven program display, feed the required temperature, time and rate and then press Enter key to confirm the value. If column (Oven) temperature is   Isothermal condition the rate is off.  
4.3.4      Set the Oven Final Temperature below 20° C of Maximum Column temperature or as per procedure requirement.
4.3.5      Press ‘Back inlet’ key select mode split or split-less, add require inlet temperature with numerical key and press ‘Enter’ key to confirm the value.
4.3.6         Press ‘Front Det.’ key, add require detector temperature with numerical key and press ‘Enter’ key to confirm the value. Now increase the temperature, if temperature comes out at 150° C message display ‘FLAME OUT’.
4.3.7             Press ‘Front Det.’ Key and select Flame with ▲ and ▼ key select flame on with press ‘On’ key. Igniting message display and ignite the flame with gas lighter on detector side. The display shows the flame indicator in a numerical value.
4.3.8      Press ‘Status’ key and check the fed parameters again with ▲ and ▼ key to confirm the value. Now instrument is ready, the message will display “Instrument ready for Injection’.
4.3.9           Press “Signal 1” key select Zero with▲ and ▼ key, press ‘On’ key to flame numerical value should be zero and base line detection started to zero mv.
4.3.10  Now inject the solution with syringe. If used manual operation press ‘START’ key immediately after inject the solution.
4.4                     Software Operation:
4.4.1    Double click on the instrument1 (online) & instrument1 (offline) icon from the desktop;
             create new method from instrument1 (offline) and load method in instrument1 (online)
 from file menu. Apply the chromatographic condition and enter ok. And view the run
 signal window, After completion of the run, and open the instrument offline select the file 
 and] integrate the peak using integration menu, go to calibration task icon and enter the
             component name and click on ok, then print the chromatogram by clicking print option
             from file menu.
4.4.2  Condition the column at 280°C for 10 min. Enter the programming condition of the                        sample through micro syringe, when G.C shows ready signal.
4.4.3  Cool the G.C after completion of the analysis & switch it off. Shut down the computer, 
             mains power supply. Close the gas supply from the distribution panel & from cylinder.

5.0       Routine Maintenance:
5.1       Clean the all out side part of instrument.
5.2       Clean the injector and injector liner. Change the glass wool of injector liner. Change the
 septa of injector port if  required.
5.3         Check the all connection of gases for leakage.

SOP FOR OPERATING PROCEDURE OF STABILITY CHAMBER



1.0           Objective:
            The objective of this Standard Operating Procedure is to lay down the procedure for  
            Operation of the Stability Chamber.
2.0              Scope:
            This SOP covers operating Procedure of Stability Chamber.
3.0              Responsibility:
            Junior Research Officer, Research Officer: Responsible for operation of the Stability   Chamber as per procedure.
            QA Officer/QA Manager: Review the records and governing the document 
4.0       Procedure for Stability Chamber:
4.1       Connect the 15Amp three pin plugs to the mains supply.
4.2              Ensure that the earthing is grounded correctly to avoid the sudden shock hazards.      
4.3              Ensure that the front door and inner door is in lock position.
4.4              Switch ON the main and observe that the mains indicator glows on the front panel.
4.5              Give Water Connection to water inlet of reservoir pot.
4.6              Now set the required dry temperature & % R.H as per your requirement.
            Provided on control panel having 3 different modes.
5.0       Procedure for Controller:
5.1       Switch on the cooling system for lower temperature. A compressor positioning switch is  
(1)     Off mode: Between the range of 100C.Above ambient to 600 C & 10% R.H. Above ambient to 95% R.H.
(2)       On Mode: Below 100C of ambient temperature.
(3)      Auto mode: Deleted.
6.0           Note: When the water level of water tank will go down to the normal level the buzzer will
Ring and supply connection to boiler heater will get disconnected.
7.0       Note down the temperature in the Temperature record in LOG BOOK.
7.0              Calibration Frequency: Yearly
8.0              Routine Maintenance:
8.1       Clean the Stability Chamber every week and wipe with clean duster.

SOP FOR OPERATING PROCEDURE FOR PRESERVATION OF SAMPLE ANALYSIS



1.0                  Objective:
             The objective of this standard Operating Procedure is to lay down the procedure for
             Storage of analysis sample
2.0                  Scope:
             This SOP covers operating procedure for storage of analysis sample.
3.0                  Responsibility:
HOD: Proper checking of sample and storage of sample.
QA Officer/QA Manager: Review the records and governing the document.
4.0                  Procedure:
After receiving the sample from “Sample Registration area”, check the integrity of sample, type of sample, test requirement, quantity of sample, storage condition etc..
After that preserve the sample under specified condition as per the requirement of test standard.
 To protect from contamination/cross contamination, light, environment effect and
  Maintain integrity of sample, Sample stored at following temperature and place.
Parameter to be studies
Preservation Temperature
Preservation Place
1. Microbiological parameter
4°C ± 2°C
Refrigerator
2. Chemical parameter
4°C ± 2°C
Refrigerator
3. Elements parameter
25°C ± 2°C
Room temperature
4. Pesticides parameter
4°C ± 2°C
Refrigerator




requirement of Q.C in Daman

  We have requirement of Q.C Working area : Daman/Dalwada Exp: Fresher Gender: Male Qualification: Any Graduated Interested Person Call On t...