Upload
others
View
0
Download
0
Embed Size (px)
Citation preview
‘’Test Air” Instructions Manual
1
Microbial Impaction Sampler for Clean Room Gas Monitoring
“TEST AIR’’
IINNSSTTRRUUCCTTIIOONN MMAANNUUAALL
‘’Test Air” Instructions Manual
2
.
INSTRUCTION MANUAL
READ THIS HANDBOOK CAREFULLY
SAFETY INSTRUCTIONS
• Use the device just for the indicated purposes.
• The Device must be correctly used according to manual instructions, before starting any operation.
• Replace immediately electrical cable when damaged.
• Use original spare parts and accessories for any replacement;
• If this device is used with extremely high pressurized gas you must connect to the inlet a
pressure reducer in order to have a max of 4 bar to the inlet.
.
INSTALLATION GENERAL CAUTION
CAUTION
Be aware that pressure applied to the inlet is lower than 4 bar.
‘’Test Air” Instructions Manual
3
.
SUMMARY
1. Introduction ………………………………………….…………….… pg. 5
2. Characteristics ……………………………………………….…… pg. 5
3. How does “Test Air” work ….………..……………...………............pg. 6
4. Components ………………………………….…………….….………pg. 7
5. Installation …………….………..……..……………………..………..pg. 9
6. Operations …………..………...……………………………….………pg. 10
7. Servicing …………..………...…………………………………………pg. 11
8. Spare parts …………..………...………………………………….… pg. 12
9. Scheme ………………….………………………..………...……..… pg. 12
10. Standard Operating Procedure (SOP) ………..………...……….. pg. 13
‘’Test Air” Instructions Manual
4
SHORT INSTRUCTIONS
Method of use - A) The contact plate with medium is inserted in the housing. B) Test Air is connected to the compressed air output C) The operator adjusts the air flow by the knob of the meter. D) the operator controls the volume of compressed air (or gas) by a timer (e.g. 10 minutes for 1000 litres of air). E) At the end the contact plate is transferred to incubator for CFU counting.
‘’Test Air” Instructions Manual
5
1. INTRODUCTION
The “Test Air” microbiological gas sampler is a portable instrument for determining the level of existent microbiological contaminants in the compressed gas of an aseptic manufacturing operations.
Official control of “Test Air”. An official validation of the “Test Air” air sampler is required as the event of an inspection. The flow meter of “Test Air” should be calibrated by an official agency at regular intervals (usually every year). Official validation of the flow meter may also be performed by Galleon’s customer support service.
2. CHARACTERISTIC
Size 444 X 300 X 290h mm Weight Kg. 5 Construction Stainless steel
Anodized aluminium
Air flow meter 50/400 SCFH Max temperature 10 °C - 40°C room temperature
Power supply N/A Max altitude N/A External temperature N/A Max relative humidity Not material Compressed air Max inlet pressure 4 bar
‘’Test Air” Instructions Manual
6
.
3. HOW DOES “ Test Air ” WORK
Compressed air source should be connected to the “Test Air” system. The flow meter is regulated at the correct volume (e.g.: 100 lts of air/minute for SAS Super 100): 1000 litres of air will impact in ten minutes the agar nutrient medium of a Contact Plate (or Petri dish).The Contact plate (or Petri dish) is then incubated and the CFU counted.
‘’Test Air” Instructions Manual
7
4. COMPONENTS
Components of “Test Air”:
FRONT PICTURE
(a) Stainless steel base (b) Air flow meter (c ) Adjustment knob of the air flow meter (d) One Way Air Inlet Valve (d1) Air inlet valve connection for air flow adjustment (no involved sterility in this phase of sampling) -
(1);(3)
(d2) Air inlet valve connection for microbiological air test (involved sterility in this phase of sampling) - (2);(4)
(e) Triangular S/S metal plate (f) Double O-rings connection between the “Test Air” and the “Test Air Funnel” (g) “Test Air funnel head” Petri Version (h) Collar - Petri Version (i) Contact Plate housing (j) “Test Air funnel” support (k) Handle (l) SAS Super 100 support (optional) (m) Air flow meter outlet (n) Tubing/Elbow connection between metal block and “Test Air” funnel (o) Test Air Funnel Connection
‘’Test Air” Instructions Manual
8
REAR PICTURE image
‘’Test Air” Instructions Manual
9
5. INSTALLATION
The compactness of “Test Air” sampler provides the possibility to locate the sampling device where space is
limited. The simple construction coupled with simple operation enable accurate reports about air – gas
microbiology quality. The unit is completely dismantled for easy cleaning and autoclave sterilisation. The air
flow meter is not autoclavable. Follow the schematic drawing for assembling. All connections are “quick
disconnect”. Connect the unit to the desired point of sampling using a suitable sterile tubing. The inlet gas
valve should be in a closed position.
ASSEMBLING
a. Position the stainless steel base (A) in front of the
operator.
b.Fix the inlet gasing source to (D).
c. Fix the air flow meter connection (B) in the front to the
backside elbow with a triangle SS Plate
d. Fix the funnel support (J) on the base
e. Insert the “double O-ring” connection (F) into the funnel
f. Position the funnel (H) on its support and fix it to the air
outlet
g. Screw the Contact Plate housing (I) to the funnel head
air flow meter (B) is not autoclavable
‘’Test Air” Instructions Manual
10
.
6. OPERATIONS
PREPARATION
6.1 Connect the unit to the desired point of sampling using a suitable sterile tubing. The inlet gas valve
should be in a closed position.
6.2 Insert an identified 90MM Petri dish with sterile medium in the “Test Air funnel” housing and screw it to
the conical head. Do not connect to the “Test Air”.
AIR FLOW ADJUSTMENT
6.3. Open the line of compressed air or gas line. Open the (D+D1) valve and adjust the air flow on the flow meter to
100 lts / minute (210 SCFH). The purpose of this operation is to obtain a known volume of air, without
contaminating the sampling circuit.
COMPRESSED GAS SAMPLING
6.4. Connect the Test Air funnel to the Test Air. Close the (D1) valve and open the (D2) valve and start the
count down.
6.5 Close the gas valve after 10 minutes (1000 litres of air are collected).
6.6 Unscrew the head and transfer the Petri dish to the laboratory for incubation.
6.7 The “Test Air” is ready for a new test.
6.8 Count the Colony Forming Units in the plate at the end of incubation time and report the results as
CFU/1000 litres of gas/compressed air.
CALIBRATION
6.9 The air flow meter may be officially calibrated each year.
‘’Test Air” Instructions Manual
11
SCFH litri/min 225 106,84 230 108,56 235 110,92 240 113,28 245 115,64 250 118 255 120,36 260 122,72 265 125,08 270 127,44 275 129,8 280 132,16 285 134,52 290 136,88 295 139,24 300 141,6 305 143,96 310 146,32 315 148,68 320 151,04 325 153,4 330 155,76 335 158,12 340 160,48 345 162,84 350 165,2 355 167,56 360 169,92 365 172,28 370 174,64 375 177 380 179,36 385 181,72 390 184,08 395 186,44 400 188,8
CONVERSION TABLE FROM “SCFH” TO “litre/min”
The readings of the air flow meter should be transformed in litres per minute. Follow the reported table.
SCFH litri/min 40 18,88 45 21,24 50 23,6 55 25,96 60 28,32 65 30,68 70 33,04 75 35,4 80 37,76 85 40,12 90 42,48 95 44,84 100 47,2 105 49,56 110 51,92 115 54,28 120 56,64 125 59 130 61,36 135 63,72 140 66,08 145 68,44 150 70,8 155 73,16 160 75,52 165 77,88 170 80,24 175 82,6 180 84,96 185 87,32 190 89,68 195 92,04 200 94,4 205 96,76 210 99,12 215 101,84 220 103,84
7. SERVICING
For a correct maintenance of the instrument just follow these sample steps: the instrument should be cleaned regularly and stored to avoid dust accumulation.
‘’Test Air” Instructions Manual
12
8. SPARE PARTS
Components of “Test Air”:
(a) Stainless steel base (b) Air flow meter (the figures are in feet) (c ) Adjustment knob of the air flow meter (d) One way air inlet connection (d1) Air inlet valve connection for air flow adjustment (no involved sterility in this phase of
sampling) (d2) Air inlet valve connection for microbiological air test (involved sterility in this phase of sampling) (e) Triangular S/S metal plate
(f) Double O-rings connection between the “Test Air” and the “Test Air funnel” (g) “Test Air funnel head”
Petri Version (j) Collar
Petri Version (m) Contact Plate housing (n) “Test Air funnel” support (o) Handle (p) SAS Super 100 support (optional) (q) Air flow meter outlet (r) Tubing/Elbow connection between metal block and “Test Air” funnel
air flow meter (b) is non autoclavable
9. SCHEME
‘’Test Air” Instructions Manual
13
.
10. STANDARD OPERATING PROCEDURE
GAS AND COMPRESSED AIR MICROBIOLOGICAL SAMPLING: Standard Operatine Procedure
INTRODUCTION - The following SOP will assist a laboratory to prepare its own procedure.
STANDARD OPERATING PROCEDURE
OBJECT - Quantitative micro-organism collection in compressed air and gas lines
OBJECTIVE - Testing the microbiological quality of compressed air and gas to avoid contamination inside
controlled environments
TERMINOLOGY - Air flow meter, Colony Forming Unit, CFU, Clean Room, Contact Plate, Impaction,
Litres per minute, Microbiological medium, Petri dish,
STANDARDS - “Test Air” instruction Manual RESPONSIBILITY - Production Manager or Laboratory Manager
MATERIAL Equipment: -“ Test Air Petri (1651) microbiological impaction sampler using Petri dish
Components of “Test Air”:
(a) Stainless steel base code: 251-35 (b) Air flow meter (the figures are in feet) code: 251-38
(c ) Adjustment knob of the air flow meter code: 251-39 (d) One way air inlet connection code: 251-43 (d1) Air inlet valve connection for air flow adjustment code: 251- 44
(d2) Air inlet valve connection for microbiological air test code: 251-45 (e) Triangular S/S metal plate code: 251-49 (f) Double O-rings connection between the “Test Air” and the “Test Air funnel” code: 251-60 (g) “Test Air funnel head” code: 251-61
Petri Version (j) Collar code: 251-62
Petri Version (m) Contact Plate housing code: 251-63 (n) “Test Air funnel” support code: 251-64 (o) Handle code: 251-66 (p) SAS Super 100 support (optional) code: 251-71 (q) Air flow meter outlet code: 251-72 (r) Tubing/Elbow connection between metal block and “Test Air” funnel code: 251-73
‘’Test Air” Instructions Manual
14
All the connections are “Quick Disconnect”
- Connection to gas outlet
“Test Air” may be used with or without SAS Super air sampler.
Consumables:
- Sterile Contact plates (RODAC) or standard 90 mm Petri dish with TSA medium
PROTOCOL
The compactness of “Test Air” sampler provides the possibility to locate the sampling device where space is
limited. The simple construction coupled with simple operation enable accurate reports about air – gas
microbiology quality.
The unit is completely dismantled for easy cleaning and autoclave sterilisation. The air flow meter is not
autoclavable. Follow the schematic drawing for assembling. All connections are “quick disconnect”. Connect
the unit to the desired point of sampling using a suitable sterile tubing. The inlet gas valve should be in a
closed position.
Insert an identified Petri dish with sterile medium in the “Test Air funnel” housing and screw it to the
conical head. Do not connect to the “Test Air”.
Open the line of compressed air or gas line.
Open (D) and (D1) valve and adjust the air flow on the flow meter to 100 lts / minute (210 SCFH). The
purpose of this operation is to obtain a known volume of air.
Connect the Test Air funnel to the Test Air. Close the (D1) valve and open the (D2) valve and start the
count down.
Close the gas valve after 10 minutes (1000 litres of air are collected).
Unscrew the head and transfer the Contact plate (RODAC) or Petri dish to the laboratory for
incubation. The “Test Air” is ready for a new test.
Count the Colony Forming Units in the plate at the end of incubation time and report the results as
CFU/1000 litres of gas/compressed air.
If the sampling data should be recorded, replace the plate housing with the SAS Super air sampler. The
time will be regulated by the sampler timer. The air flow meter may be officially calibrated each year.
‘’Test Air” Instructions Manual
15
.
GLOSSARY
TERMS DEFINITIONS
Airborne particles Particles suspended in moving or stationary air Airflow Movement of air in a given direction respect to a specified reference
plane.The rate of airflow is expressed in terms of volume per unit time Bacterial spore A resistance body produced by a vegetative bacterial cell.These spores may be resistant to heat, U.V., desiccation and may remain dormant for extended period of time Bactericide A substance or formulation capable of destroying bacteria
Bacteriostat A compound or formulation that retards or prevent the growt of bacteria Bioaerosol gaseous suspension of fine solids or liquid particles carrying micro-
organisms Bioburden A measure of the number of micro-organisms on or within products and inanimate objects. A common synonym is microcount
C.F.U. Colony Forming Unit – An individual ore an aggregate of many microbial cells which, when cultivated on solid media, will develop into a single visual colony
Challenge aerosol The concentration of an aerosol (e.g.: number of particles per unit volume) used o challenge a system under specified conditions Contaminant Any unwanted substance present in or on a material or any surface
Cyclone A system of rotating air spinning inward to a low pressure centre counterclockwise
Decontamination The removal of contaminant present in or on a material Disinfectant An agent, chemical or physical, designed to reduce the population on
micro- organisms Flora The types of microbiological organisms found in an environment
Fungi A nonphotosyntetic micro-organisms possessing cell walls ad usually growing as a mass of branching interlacing filaments known as mycelia Impaction Physical contact of particles with other surfaces
Micro-organism Name that include bacteria, yeasts, moulds, viruses Monitoring The routine determination of airborne particle concentration as well as
other relevant parameters Particle An object that is solid, liquid or both usually between 1 nanometer and 1 millimeter in size
Pathogen A micro-organisms capable of causing disease Residual activity Residue which may or may not be active that remain on surfaces after
treatment with an antimicrobial substance Sampling A process consisting of the withdrawal or isolation of a fractional part of a whole
Spore A resistance body produced by a vegetative bacterial cell.These spores may be resistant to heat, U.V., desiccation and may remain dormant for extended period of time Sporicide A substance or formulation capable of destroying bacterial spore
Sterilisation A physical or chemical process that completely destroys or eliminates all forms of microbial life Total Bacterial Count The total number of micro-organisms present in a substance
Validation Establishment, by means of a specified testing program, that a system under test is capable of performing as intended Viable particle A particle capable of reproduction ; a living organism
Virus An obligate intracellular parasite, typically in the size range of 0,01 to 0,1 um, that can infect and cause diseases in man, animals and insects
WARRANTY
WARRANTY CONDITIONS Galleon Instru-Tech warrants this product to be free of defects in materials and functionality The repairs will be effected by Galleon Instru-Tech or by authorized dealers as follows: - Faulty components free replacement The labour is always at customer's expense - The equipment will be sent at buyer's expenses and risk and the return will be ex-works - This warranty does not apply to damages resulting from tamperings,abnormal use and installation and does not cover transport damages - Galleon Instru-Tech shall not be liable for any commercial damages, whether incidental, consequential or otherwise derived from the use of instruments
ATTENTION
TO OUR NEW CUSTOMER As a user of our equipment you are covered for a 12 months guarantee for all spare parts as a result of mechanical failure of the machine during normal use. In order to provide you with first class service, it is essential for us to know all your references and which equipment you have. We kindly ask you therefore to fill in the attached guarantee and return the card to us by first class mail.