GSFE Division PRODUCT CATALOGUE Compressed Air and Gas Treatment parker.com/gsfe
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3 Gas Separation and Filtration Division EMEA Parker Gas Separation and Filtration EMEA offer a range of filtration and separation solutions that are designed to meet the needs of global customers through a dedicated focus on key market sectors. Operating from manufacturing sites in the UK, Italy, the Netherlands and the Czech Republic, the division designs, develops, manufactures and markets compressed air/gas filters and dryers, process chillers and coolers, condensate management products, breathing air purifiers, nitrogen, hydrogen and zero air on-site gas generators for many diverse markets, industries and applications where compressed air and gas purity, product quality, technological excellence and global customer support are paramount. Parker Gas Separation and Filtration EMEA products and systems deliver a unique combination of innovation and excellence in the most demanding applications, helping engineers to maximise the productivity and profitability of their manufacturing and process operations and with a focus on delivering real and lasting value to every customer. For over 50 years, Parker GSFE have remained instrumental in the development of both the international standards for compressed air and filter testing, and continue to work closely on new standards with governing bodies such as the British Compressed Air Society (BCAS), the International Standards Organisation (ISO), PNEUROP, and the USA Compressed Air and Gas Institute (CAGI). Parker GSFE’s goal is to dominate our chosen markets, aiming to be the number one choice supplier of compressed air / gas treatment products and on-site gas generators. Achieving this, by recruiting the best teams, and by passionately developing our people, technology and products to help us exceed our customers’ expectations, bringing new products, services and solutions to the market. We believe in, and strive to maintain, close relationships with our customers, making us their global partner of choice for compressed air and gas treatment products and services. GSFE Compressed Air and Gas Treatment Manufacturing Locations Gateshead, UK GSFE Division Headquarters CAGT Business Unit • Filter Elements • Compressed Air Filters • Adsorption Dryers • Breathing Air Purifiers • Carbon Dioxide Incident Protection Gas Business Unit • Industrial & Analytical Gas Generators Chomutov, Czech Republic • Filter Elements Etten Leur, The Netherlands Membranes & Modules Business Unit • Gas Membranes & Modules Padova, Italy Hiross Business Unit • Adsorption Dryers • Refrigeration Dryers • Chillers • Aftercoolers • Filter Elements • Compressed Air Filters • Condensate Drains
4 Specifying air quality (purity) in accordance with ISO8573-1:2010, the international standard for compressed air quality ISO8573-1 is the primary document used from the ISO8573 series as it is this document which specifies the amount of contamination allowed in each cubic metre of compressed air. ISO8573-1 lists the main contaminants as solid particulate, water and oil. The purity levels for each contaminant are shown separately in tabular form, however for ease of use, here all three contaminants are combined into one easy to use table. Specifying air purity in accordance with ISO8573-1:2010 When specifying the purity of air required, the standard must always be referenced, followed by the purity class selected for each contaminant (a different purity class can be selected for each contaminant if required). An example of how to write an air quality specification is shown below: ISO8573-1:2010 Class 1:2:1 ISO8573-1:2010 refers to the standard document and its revision, the three digits refer to the purity classifications selected for solid particulate, water and total oil. Selecting an air purity class of 1:2:1 would specify the following air quality when operating at the standard’s reference conditions: Class 1 Particulate In each cubic metre of compressed air, the particulate count should not exceed 20,000 particles in the 0.1 - 0.5 micron size range, 400 particles in the 0.5 - 1 micron size range and 10 particles in the 1 - 5 micron size range. Class 2 Water A pressure dewpoint (PDP) of -40°C or better is required and no liquid water is allowed. Class 1 Oil In each cubic metre of compressed air, not more than 0.01mg of oil is allowed. This is a total level for liquid oil, oil aerosol and oil vapour. ISO8573-1:2010 Class 0 Class 0 does not mean zero contamination Class 0 does not mean oil-free compressed air A Class 0 compressor does not guarantee oil-free compressed air Class 0 does not solely refer to oil contamination A Class 0 specification must be ‘cleaner’ than the Class 1 specification for the contaminant chosen The contamination levels stated for a Class 0 specification must also be within the measurement capabilities of the test equipment and test methods shown in ISO8573 Pt 2 to Pt 9 The Class 0 specification must clearly state which contaminant the Class 0 claim refers to i.e. “Solid Particulate”, “Water” or “Total Oil (aerosol, liquid & vapour)” Class 0 requires the user or the equipment supplier to show a contamination level as part of a written specification Example of a correctly written Class 0 specification “When preceded by OIL-X Grade AO General Purpose & Grade AA High Efficiency Coalescing Filters, OIL-X OVR Grade Adsorption Filters provide a delivered air quality in accordance with ISO8573-1:2010 Class 0 (≤0.003 mg/m³) for total oil (oil aerosol & oil vapour)” The agreed Class 0 specification must be written on all documentation to be in accordance with the standard Stating Class 0 without an accompanying contaminant specification is meaningless and not in accordance with the standard ISO8573-1: 2010 CLASS Solid Particulate Water Oil Maximum number of particulates per m³ Mass Concentration mg/m³ Vapour Pressure Dewpoint Liquid g/m³ Total Oil (aerosol, liquid and vapour) 0.1 - 0.5 micron 0.5 - 1 micron 1 - 5 micron mg/m³ 0 As specified by the equipment user or supplier and more stringent than Class 1 1 ≤ 20,000 ≤ 400 ≤ 10 - ≤ -70°C - 0.01 2 ≤ 400,000 ≤ 6,000 ≤ 100 - ≤ -40°C - 0.1 3 - ≤ 90,000 ≤ 1,000 - ≤ -20°C - 1 4 - - ≤ 10,000 - ≤ +3°C - 5 5 - - ≤ 100,000 - ≤ +7°C - - 6 - - - ≤ 5 ≤ +10°C - - 7 - - - 5-10 - ≤ 0.5 - 8 - - - - - 0.5-5 - 9 - - - - - 5-10 - X - - - > 10 - > 10 > 10 www.parker.com/gsfe Compressed Air Filters and Dryers
5 Selecting Parker purification equipment to comply with ISO8573-1:2010 air quality standard ISO8573-1: 2010 CLASS Solid Particulate Water Oil Wet Particulate Dry Particulate Vapour Total Oil (aerosol, liquid and vapour) 0 - - - OIL-X Grade AO + AA + OVR 1 OIL-X Grade AO + AA OIL-X Grade AO (M) + AA (M) Dryer sized for -70°C PDP OIL-X Grade AO + AA + OVR OIL-X Grade AO + AA +ACS 2 OIL-X Grade AO OIL-X Grade AO (M) Dryer sized for -40°C PDP OIL-X Grade AO + AA 3 OIL-X Grade AO OIL-X Grade AO (M) Dryer sized for -20°C PDP OIL-X Grade AO 4 OIL-X Grade AO OIL-X Grade AO (M) Dryer sized for +3°C PDP OIL-X Grade AO 5 OIL-X Grade AO OIL-X Grade AO (M) Dryer sized for +7°C PDP - 6 - - Dryer sized for +10°C PDP - For further information relating to ISO Compressed Air Quality Standards please refer to our white paper ‘Introduction to ISO Compressed Air Quality Standards’. Available at parker.com/gsfe Simple guidelines for the selection of purification equipment 1. Purification equipment is installed to provide air quality, therefore you must first of all identify the quality of compressed air required for the compressed air leaving the compressor room and for each point of use on the compressed air system. 2. The air quality required at each point of use may differ dependent upon the application. 3. Using the quality classifications shown in ISO8573-1 will allow easy selection of purification equipment. 4. ISO8573-1:2010 is the latest edition of the standard, however some facilities may still be operating on older revisions. 5. Specifying air quality as ISO8573-1, ISO8573-1:1991 or ISO8573-1:2001 refers to the previous editions of the standard and may result in a different quality of delivered compressed air. 6. Ensure any ISO8573-1 air purity classifications are written in full and include the revision year to allow for correct product selection. 7. Remember - Oil-free compressor installations require the same filtration considerations as oil lubricated compressor installations.
6 Compressed Air Adsorption Filter Adsorption Dryer Dry Particulate Filters Air Receiver Compressor Liquid Separator Coalescing Filters Selecting the right purification products for your compressed air system To achieve the degree of air quality specified by ISO8573-1, a careful approach to system design, commissioning and operation must be adopted. Parker recommends that compressed air is treated: • Prior to entry into the distribution system • At critical usage points and applications This ensures that contamination already in the distribution system is removed. Purification equipment should be installed where the air is at the lowest possible temperature (i.e. downstream of after-coolers and air receivers). Point-of-use purification equipment should be installed as close as possible to the application. In order to correctly size purification equipment, there are a number of primary operating parameters that must be obtained from the user’s site. These are: • The MAXIMUM compressed air flow rate into the filters/dryer • The MINIMUM operating pressure into the filters/dryer • The MAXIMUM operating temperature into the filters/dryer • The MAXIMUM ambient air temperature where the equipment is to be installed • The required dewpoint (dryers) Individually, each of the primary operating parameters can influence product sizing however collectively they can have a major impact on product sizing and performance. With the primary operating parameters, basic product selections can be made, however additional information may also be required to finalise product selection. Secondary parameters include: • Minimum operating temperature • Preferred pipe connections • Available electrical supply (voltage/phase/frequency) • Customers preference regarding drains, controllers or other options Typical Compressed Air Treatment System www.parker.com/gsfe ISO Compressed Air Quality Standards
7 Frequently Asked Questions: High/Low Temperatures High Temperatures Maximum temperature (inlet & ambient) for dryers is 50°C or 122°F. For temperatures above this it is more cost effective to install an after-cooler than oversize a dryer. Also as a dryer increases in size, so does the volume of purge required to regenerate the dryer. Fitting an after-cooler is also more cost effective in terms of energy consumption. Low Temperatures Freezing water causes damage to a dryer therefore as the temperature approaches freezing, the dryer and ancillaries need protection. Sub-zero temperatures also affect the function of seals and electronics. • Always keep purification equipment under shelter and out of cold wind/ direct air blasts • Trace heat & insulate anywhere where moisture is present i.e. Inlet filtration/ drain lines/Inlet valves/columns/exhaust valves Why is MAXIMUM Flow Rate Important? Filtration: As compressed air flow rates increase, contamination levels increase and a larger filtration surface area is required to ensure adequate filtration performance, low pressure drop and 12 month lifetime of filter elements. Dryers: As compressed air flow rates increase, the amount of water vapour the dryer must remove also increases. Adsorption dryers must be sized on the highest flow rate to ensure the desiccant bed is large enough to provide the correct contact time and dewpoint. Refrigeration dryers must be sized to ensure the heat exchanger is large enough and has enough cooling capacity. Why is MINIMUM Inlet Pressure Important? Dryers: As pressure decreases, the volume of compressed air increases, as does the water vapour content, therefore the amount of water vapour the dryer must remove also increases. Dryers must be sized for minimum inlet pressure to account for the increased amount of water vapour present. Why is MAXIMUM Inlet Temperature Important? Dryers: As the temperature of the compressed air increases, so does the water vapour content, therefore the amount of water vapour the dryer must remove also increases. Dryers must be sized for maximum inlet temperature to account for the increased amount of water vapour present. Why is MAXIMUM Ambient Temperature Important? Refrigeration & Tandem Technology Dryers: Air cooled refrigeration & Tandem Technology dryers use ambient air for heat exchange. The lower the ambient air temperature, the better the heat exchange process Poor ventilation and / or high ambient air temperatures will result in loss of dewpoint. Why Correct a Dryer for Dewpoint? Adsorption Dryers: Dewpoint is derived from contact time between the air and the desiccant material, lower dewpoints typically require the dryer to be de-rated to provide more contact time. Refrigeration Dryers: The size of the heat exchangers affects the cooling capacity, too little cooling capacity results in poor dewpoint.
8 www.parker.com/gsfe Compressed Air Filters OIL-X Liquid Separators 25% 50% 75% 100% 20 40 60 80 100 120 Percentage of Rated Flow Differential Pressure [mbar] 0 OIL-X Grade WS Water Separator Differential Pressure (25% - 100% Rated Flow) WSPX010 WSPX015 & WSPX020 WSPX025 & WSPX030 WSPX035, WSPX040 & WSPX045 WSPX050 & WSPX055 25% 100% 90 91 92 93 94 95 WSPX010 WSPX015 & WSPX020 WSPX025 & WSPX030 WSPX035, WSPX040 & WSPX045 WSPX050 & WSPX055 OIL-X Grade WS Water Separator Liquid Separation Efficiency (25% - 100% Rated Flow) Percentage of Rated Flow Separation Efficiency (%) 50% 75% 96 97 98 99 100 Product Selection & Correction Factors To correctly select a separator model, the flow rate of the separator must be adjusted for the minimum operating (inlet) pressure at the point of installation. 1. Obtain the minimum operating (inlet) pressure and maximum compressed air flow rate at the inlet of the separator. 2. Select the correction factor for minimum inlet pressure from the CFMIP table (always round down e.g. for 5.3 bar, use 5 bar correction factor). 3. Calculate the minimum filtration capacity. Minimum Filtration Capacity = Compressed Air Flow Rate x CFP. 4. Using the minimum filtration capacity, select a filter model from the flow rate tables above (filter selected must have a flow rate equal to or greater than the minimum filtration capacity). CFMIP - Correction Factor Minimum Inlet Pressure Minimum Inlet Pressure barg1 2 3 4 5 6 7 8 9 10111213141516 psi g 15 29 44 58 73 87 100 116 131 145 160 174 189 203 218 232 Correction Factor 4.00 2.63 2.00 1.59 1.33 1.14 1.00 0.94 0.89 0.85 0.82 0.79 0.76 0.73 0.71 0.68 Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. Model Pipe Size L/S m³/min m³/hr cfm Initial Saturated Differential Pressure 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi WSPX010A FX 1/4" 10 0.6 36 21 53 0.8 29 0.4 14 0.2 4 0.1 WSPX010B FX 3/8" 10 0.6 36 21 51 0.7 27 0.4 12 0.2 2 0.0 WSPX010C FX 1/2" 10 0.6 36 21 48 0.7 25 0.4 10 0.1 0 0.0 WSPX015B FX 3/8" 40 2.4 144 85 64 0.9 25 0.4 12 0.2 6 0.1 WSPX015C FX 1/2" 40 2.4 144 85 55 0.8 22 0.3 10 0.1 4 0.1 WSPX020D FX 3/4" 40 2.4 144 85 42 0.6 22 0.3 7 0.1 2 0.0 WSPX025D FX 3/4" 110 6.6 396 233 98 1.4 55 0.8 23 0.3 4 0.1 WSPX025E FX 1" 110 6.6 396 233 95 1.4 52 0.8 20 0.3 1 0.0 WSPX030G FX 11/2" 110 6.6 396 233 82 1.2 30 0.4 13 0.2 4 0.1 WSPX035G FX 11/2" 350 21 1260 742 57 0.8 24 0.3 5 0.1 5 0.1 WSPX040H FX 2" 350 21 1260 742 52 0.8 19 0.3 0 0.0 0 0.0 WSPX045I FX 21/2" 350 21 1260 742 55 0.8 22 0.3 3 0.0 1 0.0 WSPX050I FX 21/2" 800 48 2880 1695 116 1.7 57 0.8 16 0.2 5 0.1 WSPX055J FX 3" 800 48 2880 1695 111 1.6 52 0.8 11 0.2 0 0.0 Technical Data Filtration Grade Water Separator Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F WS PX010A - P055 (Float Drain) 1.5 22 16 232 2 35 65 149 When selecting a coalescing filter for pressures above 16 bar g (232 psi g), use manual drain version and fit an external automatic drain. Separation Performance Filtration Grade Filter Type Particle Reduction (inc water & oil aerosols) Maximum Remaining Oil Content at 21°C (70°F) Liquid Separation Efficiency Change Element Every Precede with Filtration Grade WS Liquid Not Applicable Not Applicable >93% Not Applicable Not Applicable G G G G G G G G G G G G G G Select for BSPP Threads/Select for NPT Threads G N
9 W H D W H D 010 - 030 035 - 055 Parker Catalogue Numbers (BSPP Models) WSPX Model Catalogue Number Water Separator 010A WSPX010AGFX 010B WSPX010BGFX 010C WSPX010CGFX 015C WSPX015CGFX 020D WSPX020DGFX 025D WSPX025DGFX 025E WSPX025EGFX 030G WSPX030GGFX 035G WSPX035GGFX 040H WSPX040HGFX 045I WSPX045IGFX 050I WSPX050IGFX 055J WSPX055JGFX Weights & Dimensions WSPX Model Height (H) Width (W) Depth (D) Weight mm ins mm ins mm ins kg lbs 010 180 7.09 76 2.99 65 2. 56 0.81 1.78 015/020 238 9.37 89 3.50 84 3.31 1.41 3.10 025 277 10.91 120 4.72 115 4.53 2.66 5.86 030 277 10.91 120 4.72 115 4.53 2.66 5.86 035/040/ 045 440 17.32 164 6.46 157 6.18 6.87 15.14 050 614 24.17 192 7.56 183 7.20 8.47 18.66 055 515 20.28 192 7.56 183 7.20 8.47 18.66
10 www.parker.com/gsfe Compressed Air Filters To correctly select a separator model, the flow rate of the separator must be adjusted for the minimum operating (inlet) pressure at the point of installation. 1. Obtain the minimum operating (inlet) pressure and maximum compressed air flow rate at the inlet of the filter. 2. Select the correction factor for minimum inlet pressure from the CFMIP table (always round down e.g. for 5.3 bar, use 5 bar correction factor). 3. Calculate the minimum filtration capacity. Minimum Filtration Capacity = Compressed Air Flow Rate x CFMIP. 4. Using the minimum filtration capacity, select a filter model from the flow rate tables above (filter selected must have a flow rate equal to or greater than the minimum filtration capacity). Minimum Inlet Pressure bar g 1 2 3 4 5 6 7 8 910111213141516 psi g 15 29 44 58 73 87 100 116 131 145 160 174 189 203 218 232 Correction Factor 4.00 2.63 2.00 1.59 1.33 1.14 1.00 0.94 0.89 0.85 0.82 0.79 0.76 0.73 0.71 0.68 Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. For flows at other pressures, apply the correction factors shown below. Product Selection & Correction Factors Separator Coding Example Example code SFH067N Flow Rates Model Pipe Size L/S m³/min m³/hr cfm Inlet Outlet SFH029 DN80 DN80 490 29.4 1764 1038 SFH030 DN100 DN80 500 30.0 1800 1059 SFH037 DN100 DN100 610 36.6 2196 1293 SFH038 DN125 DN100 633 38.0 2280 1342 SFH066 DN125 DN125 1093 65.6 3936 2317 SFH067 DN150 DN125 1117 67.0 4020 2366 SFH088 DN150 DN150 1473 88.4 5304 3122 SFH089 DN200 DN150 1483 89.0 5340 3143 SFH097 DN200 DN200 1618 97.1 5826 3429 SFH142 DN250 DN200 2365 141.9 8514 5011 SFH180 DN300 DN200 2992 179.5 10770 6339 SFH209 DN350 DN200 3485 209.1 12546 7385 Technical Data Filtration Grade Water Separator Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F SFH SFH029N - SFH209N 1 15 16 232 2 35 60 140 SFH Liquid Separators (Carbon Steel) CFMIP - Correction Factor Minimum Inlet Pressure
11 Weights & Dimensions Model Height (H) Width (W) Depth (D) Weight mm ins mm ins mm ins kg lbs SFH029 720 28.3 400 15.7 200 7.9 28 62 SFH030 720 28.3 400 15.7 200 7.9 29 64 SFH037 880 34.6 460 18.1 230 9.1 48 106 SFH038 880 34.6 460 18.1 230 9.1 49 108 SFH066 980 38.6 550 21.7 260 10.2 55 121 SFH067 980 38.6 550 21.7 260 10.2 56 123 SFH088 1060 41.7 570 22.4 290 11.4 82 180 SFH089 1060 41.7 570 22.4 290 11.4 85 187 SFH097 1160 45.7 660 26.0 320 12.6 126 277 SFH142 1255 49.4 680 26.8 351 13.8 148 326 SFH180 1455 57.3 750 29.5 390 15.4 160 352 SFH209 1655 65.2 830 32.7 430 16.9 205 451 Parker Catalogue Numbers Model Catalogue Number Water Separator SFH029 SFH029N SFH030 SFH030N SFH037 SFH037N SFH038 SFH038N SFH066 SFH066N SFH067 SFH067N SFH088 SFH088N SFH089 SFH089N SFH097 SFH097N SFH142 SFH142N SFH180 SFH180N SFH209 SFH209N SFH029 - SFH038 = ½" BSP SFH066 - SFH209 = 1" BSP W H
12 www.parker.com/gsfe Compressed Air Filters Grade AO General Purpose Coalescing Filter Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. Filtration Performance Filtration Grade Filter Type Particle Reduction (inc water & oil aerosols) Max. Remaining Oil Content at 21°C (70°F) Filtration Efficiency Change Element Every Precede with Filtration Grade AO Coalescing Down to 1 micron 0.5 mg/m³ 0.5 ppm(w) 99.925% 12 months WS (for bulk liquid) Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F AO PX010 - PX055 (Float Drain) 1.5 22 16 232 2 35 65 149 AO PX010 - PX055 (Manual Drain) 1 15 20 290 2 35 80 176 To correctly select a filter model, the flow rate of the filter must be adjusted for the minimum operating (inlet) pressure at the point of installation. 1. Obtain the minimum operating (inlet) pressure and maximum compressed air flow rate at the inlet of the filter. 2. Select the correction factor for minimum inlet pressure from the CFMIP table (always round down e.g. for 5.3 bar, use 5 bar correction factor). 3. Calculate the minimum filtration capacity. Minimum Filtration Capacity = Compressed Air Flow Rate x CFMIP. 4. Using the minimum filtration capacity, select a filter model from the flow rate tables above (filter selected must have a flow rate equal to or greater than the minimum filtration capacity). CFMIP - Correction Factor Minimum Inlet Pressure Minimum Inlet Pressure barg 1 2 3 4 5 6 7 8 91011121314151617181920 psi g 15 29 44 58 73 87 100 116 131 145 160 174 189 203 218 232 248 263 277 290 Correction Factor 2.65 1.87 1.53 1.32 1.18 1.08 1.00 0.94 0.88 0.84 0.80 0.76 0.73 0.71 0.68 0.66 0.64 0.62 0.61 0.59 Product Selection & Correction Factors Model Pipe Size L/S m³/min m³/hr cfm Replacement Element No. AOPX010A FX 1/4" 10 0.6 36 21 P010AO 1 AOPX010B FX 3/8" 10 0.6 36 21 P010AO 1 AOPX010C FX 1/2" 10 0.6 36 21 P010AO 1 AOPX015B FX 3/8" 20 1.2 72 42 P015AO 1 AOPX015C FX 1/2" 20 1.2 72 42 P015AO 1 AOPX020C FX 1/2" 30 1.8 108 64 P020AO 1 AOPX020D FX 3/4" 30 1.8 108 64 P020AO 1 AOPX025D FX 3/4" 60 3.6 216 127 P025AO 1 AOPX025E FX 1" 60 3.6 216 127 P025AO 1 AOPX030E FX 1" 110 6.6 396 233 P030AO 1 AOPX030G FX 11/2" 110 6.6 396 233 P030AO 1 AOPX035G FX 11/2" 160 9.6 576 339 P035AO 1 AOPX040H FX 2" 220 13.2 792 466 P040AO 1 AOPX045H FX 2" 330 19.8 1188 699 P045AO 1 AOPX045I FX 21/2" 330 19.8 1188 699 P045AO 1 AOPX050I FX 21/2" 430 25.9 1548 911 P050AO 1 AOPX055I FX 21/2" 620 37.3 2232 1314 P055AO 1 AOPX055J FX 3" 620 37.3 2232 1314 P055AO 1 When selecting a coalescing filter for pressures above 16 bar g (232 psi g), use manual drain version and fit an external automatic drain. Initial Saturated Differential Pressure 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi 123 1.8 84 1.2 53 0.8 27 0.4 124 1.8 85 1.2 55 0.8 30 0.4 121 1.8 82 1.2 44 0.6 15 0.2 122 1.8 84 1.2 46 0.7 20 0.3 91 1.3 53 0.8 31 0.4 13 0.2 124 1.8 82 1.2 45 0.7 20 0.3 113 1.6 72 1.0 34 0.5 10 0.1 125 1.8 80 1.2 43 0.6 21 0.3 80 1.2 50 0.7 27 0.4 11 0.2 125 1.8 80 1.2 42 0.6 30 0.4 90 1.3 49 0.7 27 0.4 9 0.1 81 1.2 44 0.6 18 0.3 5 0.1 113 1.6 69 1.0 40 0.6 20 0.3 123 1.8 81 1.2 44 0.6 21 0.3 95 1.4 64 0.9 35 0.5 15 0.2 116 1.7 75 1.1 42 0.6 17 0.2 123 1.8 81 1.2 45 0.7 24 0.3 112 1.6 55 0.8 32 0.5 17 0.2 G G G G G G G G G G G G G G G G G G Select for BSPP Threads/Select for NPT Threads G N
13 Grade AA High Efficiency Coalescing Filter Filtration Performance Filtration Grade Filter Type Particle Reduction (inc water & oil aerosols) Max Remaining Oil Content at 21°C (70°F) Filtration Efficiency Change Element Every Precede with Filtration Grade AA Coalescing Down to 0.01 micron 0.01 mg/m³ 0.01 ppm(w) 99.9999% 12 months AO Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F AA PX010 - PX055 (Float Drain) 1.5 22 16 232 2 35 65 149 AA PX010 - PX055 (Manual Drain) 1 15 20 290 2 35 80 176 Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. Model Pipe Size L/S m³/min m³/hr cfm Replacement Element No. AAPX010A FX 1/4" 10 0.6 36 21 P010AA 1 AAPX010B FX 3/8" 10 0.6 36 21 P010AA 1 AAPX010C FX 1/2" 10 0.6 36 21 P010AA 1 AAPX015B FX 3/8" 20 1.2 72 42 P015AA 1 AAPX015C FX 1/2" 20 1.2 72 42 P015AA 1 AAPX020C FX 1/2" 30 1.8 108 64 P020AA 1 AAPX020D FX 3/4" 30 1.8 108 64 P020AA 1 AAPX025D FX 3/4" 60 3.6 216 127 P025AA 1 AAPX025E FX 1" 60 3.6 216 127 P025AA 1 AAPX030E FX 1" 110 6.6 396 233 P030AA 1 AAPX030G FX 11/2" 110 6.6 396 233 P030AA 1 AAPX035G FX 11/2" 160 9.6 576 339 P035AA 1 AAPX040H FX 2" 220 13.2 792 466 P040AA 1 AAPX045H FX 2" 330 19.8 1188 699 P045AA 1 AAPX045I FX 21/2" 330 19.8 1188 699 P045AA 1 AAPX050I FX 21/2" 430 25.9 1548 911 P050AA 1 AAPX055I FX 21/2" 620 37.3 2232 1314 P055AA 1 AAPX055J FX 3" 620 37.3 2232 1314 P055AA 1 Initial Saturated Differential Pressure 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi 117 1.7 83 1.2 50 0.7 25 0.4 121 1.8 85 1.2 52 0.8 27 0.4 111 1.6 75 1.1 41 0.6 20 0.3 115 1.7 79 1.1 44 0.6 24 0.3 80 1.2 51 0.7 27 0.4 12 0.2 122 1.8 80 1.2 41 0.6 18 0.3 100 1.5 60 0.9 37 0.5 24 0.3 86 1.2 57 0.8 33 0.5 10 0.1 66 1.0 45 0.7 25 0.4 10 0.1 122 1.8 82 1.2 42 0.6 11 0.2 104 1.5 55 0.8 30 0.4 10 0.1 75 1.1 45 0.7 20 0.3 5 0.1 90 1.3 60 0.9 40 0.6 20 0.3 108 1.6 71 1.0 35 0.5 12 0.2 108 1.6 70 1.0 32 0.5 15 0.2 90 1.3 66 1.0 43 0.6 18 0.3 119 1.7 78 1.1 44 0.6 21 0.3 104 1.5 52 0.8 25 0.4 17 0.2 G G G G G G G G G G G G G G G G G G Filtration Tested In Accordance With Filtration Grade AO with float drain AA with float drain Filter Type Coalescing Coalescing Test Methods Used ISO 8573-2:2018 ISO 8573-4: 2019 ISO 12500-1:2007 ISO 8573-2:2018 ISO 8573-4: 2019 ISO 12500-1:2007 ISO12500-1 Inlet Challenge Concentration 40 mg of oil aerosol per cubic metre of compressed air 10 mg of oil aerosol per cubic metre of compressed air 10 100 0.0001 0.001 0.01 OIL-X Grade AO & AA Oil Carryover versus Flow Percentage of Rated Flow Oil Carryover (mg/m³) 50 75 0.5 1 25 Grade AO (ISO 12500-1 Inlet Challenge 40mg/m³) Grade AA (ISO 12500-1 Inlet Challenge 10mg/m³) When selecting a coalescing filter for pressures above 16 bar g (232 psi g), use manual drain version and fit an external automatic drain. Select for BSPP Threads/Select for NPT Threads G N
14 www.parker.com/gsfe Compressed Air Filters Grade AO General Purpose Dry Particulate Filter Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. Filtration Performance Filtration Grade Filter Type Particle Reduction (inc water & oil aerosols) Max. Remaining Oil Content at 21°C (70°F) Filtration Efficiency Change Element Every Precede with Filtration Grade AO Dry Particulate Down to 1 micron Not Applicable 99.925% 12 months Not Applicable Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F AO PX010 - PX055 (Float Drain) 1.5 22 16 232 2 35 65 149 AO PX010 - PX055 (Manual Drain) 1 15 20 290 2 35 80 176 To correctly select a filter model, the flow rate of the filter must be adjusted for the minimum operating (inlet) pressure at the point of installation. 1. Obtain the minimum operating (inlet) pressure and maximum compressed air flow rate at the inlet of the filter. 2. Select the correction factor for minimum inlet pressure from the CFMIP table (always round down e.g. for 5.3 bar, use 5 bar correction factor). 3. Calculate the minimum filtration capacity. Minimum Filtration Capacity = Compressed Air Flow Rate x CFMIP. 4. Using the minimum filtration capacity, select a filter model from the flow rate tables above (filter selected must have a flow rate equal to or greater than the minimum filtration capacity). Product Selection & Correction Factors Model Pipe Size L/S m³/min m³/hr cfm Replacement Element No. AOPX010A MX 1/4" 10 0.6 36 21 P010AO 1 AOPX010B MX 3/8" 10 0.6 36 21 P010AO 1 AOPX010C MX 1/2" 10 0.6 36 21 P010AO 1 AOPX015B MX 3/8" 20 1.2 72 42 P015AO 1 AOPX015C MX 1/2" 20 1.2 72 42 P015AO 1 AOPX020C MX 1/2" 30 1.8 108 64 P020AO 1 AOPX020D MX 3/4" 30 1.8 108 64 P020AO 1 AOPX025D MX 3/4" 60 3.6 216 127 P025AO 1 AOPX025E MX 1" 60 3.6 216 127 P025AO 1 AOPX030E MX 1" 110 6.6 396 233 P030AO 1 AOPX030G MX 11/2" 110 6.6 396 233 P030AO 1 AOPX035G MX 11/2" 160 9.6 576 339 P035AO 1 AOPX040H MX 2" 220 13.2 792 466 P040AO 1 AOPX045H MX 2" 330 19.8 1188 699 P045AO 1 AOPX045I MX 21/2" 330 19.8 1188 699 P045AO 1 AOPX050I MX 21/2" 430 25.9 1548 911 P050AO 1 AOPX055I MX 21/2" 620 37.3 2232 1314 P055AO 1 AOPX055J MX 3" 620 37.3 2232 1314 P055AO 1 Initial Dry Differential Pressure 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi 61 0.9 40 0.6 20 0.3 9 0.1 63 0.9 43 0.6 22 0.3 11 0.2 58 0.8 35 0.5 20 0.3 11 0.2 60 0.9 38 0.6 23 0.3 12 0.2 27 0.4 15 0.2 10 0.1 5 0.1 58 0.8 35 0.5 15 0.2 8 0.1 38 0.6 20 0.3 10 0.1 5 0.1 54 0.8 39 0.6 21 0.3 8 0.1 22 0.3 15 0.2 9 0.1 5 0.1 56 0.8 38 0.6 20 0.3 7 0.1 42 0.6 26 0.4 12 0.2 6 0.1 19 0.3 9 0.1 5 0.1 2 0.0 31 0.4 19 0.3 16 0.2 7 0.1 51 0.7 36 0.5 18 0.3 8 0.1 40 0.6 27 0.4 12 0.2 6 0.1 36 0.5 23 0.3 16 0.2 7 0.1 38 0.6 25 0.4 17 0.2 10 0.1 51 0.7 32 0.5 17 0.2 8 0.1 CFMIP - Correction Factor Minimum Inlet Pressure Minimum Inlet Pressure barg 1 2 3 4 5 6 7 8 91011121314151617181920 psi g 15 29 44 58 73 87 100 116 131 145 160 174 189 203 218 232 248 263 277 290 Correction Factor 2.65 1.87 1.53 1.32 1.18 1.08 1.00 0.94 0.88 0.84 0.80 0.76 0.73 0.71 0.68 0.66 0.64 0.62 0.61 0.59 G G G G G G G G G G G G G G G G G G When selecting a coalescing filter for pressures above 16 bar g (232 psi g), use manual drain version and fit an external automatic drain. Select for BSPP Threads/Select for NPT Threads G N
15 Grade AA High Efficiency Dry Particulate Filter Filtration Performance Filtration Grade Filter Type Particle Reduction (inc water & oil aerosols) Max. Remaining Oil Content at 21°C (70°F) Filtration Efficiency Change Element Every Precede with Filtration Grade AA Not Applicable Down to 0.01 micron Not Applicable 99.9999% 12 months AO Dry Particulate Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F AA PX010 - PX055 (Float Drain) 1.5 22 16 232 2 35 65 149 AA PX010 - PX055 (Manual Drain) 1 15 20 290 2 35 80 176 Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. Model Pipe Size L/S m³/min m³/hr cfm Replacement Element No. AAPX010A MX 1/4" 10 0.6 36 21 P010AA 1 AAPX010B MX 3/8" 10 0.6 36 21 P010AA 1 AAPX010C MX 1/2" 10 0.6 36 21 P010AA 1 AAPX015B MX 3/8" 20 1.2 72 42 P015AA 1 AAPX015C MX 1/2" 20 1.2 72 42 P015AA 1 AAPX020C MX 1/2" 30 1.8 108 64 P020AA 1 AAPX020D MX 3/4" 30 1.8 108 64 P020AA 1 AAPX025D MX 3/4" 60 3.6 216 127 P025AA 1 AAPX025E MX 1" 60 3.6 216 127 P025AA 1 AAPX030E MX 1" 110 6.6 396 233 P030AA 1 AAPX030G MX 11/2" 110 6.6 396 233 P030AA 1 AAPX035G MX 11/2" 160 9.6 576 339 P035AA 1 AAPX040H MX 2" 220 13.2 792 466 P040AA 1 AAPX045H MX 2" 330 19.8 1188 699 P045AA 1 AAPX045I MX 21/2" 330 19.8 1188 699 P045AA 1 AAPX050I MX 21/2" 430 25.9 1548 911 P050AA 1 AAPX055I MX 21/2" 620 37.3 2232 1314 P055AA 1 AAPX055J MX 3" 620 37.3 2232 1314 P055AA 1 Initial Dry Differential Pressure 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi 64 0.9 36 0.5 21 0.3 10 0.1 65 0.9 38 0.6 22 0.3 11 0.2 63 0.9 39 0.6 20 0.3 10 0.1 66 1.0 41 0.6 21 0.3 12 0.2 22 0.3 51 0.7 27 0.4 11 0.2 64 0.9 41 0.6 18 0.3 8 0.1 42 0.6 22 0.3 10 0.1 5 0.1 27 0.4 19 0.3 10 0.1 4 0.1 29 0.4 19 0.3 10 0.1 5 0.1 62 0.9 49 0.7 25 0.4 8 0.1 45 0.7 27 0.4 13 0.2 5 0.1 22 0.3 10 0.1 5 0.1 2 0.0 36 0.5 24 0.3 15 0.2 8 0.1 47 0.7 25 0.4 18 0.3 15 0.2 47 0.7 30 0.4 17 0.2 8 0.1 40 0.6 27 0.4 16 0.2 8 0.1 45 0.7 27 0.4 17 0.2 10 0.1 54 0.8 35 0.5 17 0.2 9 0.1 Multi-box Replacement Filter Elements OIL-X Housing Multi-Box Part Number Box Quantity Grade AO Grade AO PX010 & P010 P010AOX25 P010AAX25 25 PX015 & P015 P015AOX25 P015AAX25 25 PX020 & P020 P020AOX25 P020AAX25 25 PX025 & P025 P025AOX12 P025AAX12 12 PX030 & P030 P030AOX12 P030AAX12 12 PX035 & P035 P035AOX15 P035AAX15 15 PX040 & P040 P040AOX15 P040AAX15 15 PX045 & P045 P045AOX15 P045AAX15 15 G G G G G G G G G G G G G G G G G G When selecting a coalescing filter for pressures above 16 bar g (232 psi g), use manual drain version and fit an external automatic drain. Select for BSPP Threads/Select for NPT Threads G N
16 www.parker.com/gsfe Compressed Air Filters 25% 50% 75% 100% 20 40 60 80 100 120 Percentage of Rated Flow Differential Pressure [mbar] 0 140 OIL-X Grade AO Coalescing Filter Initial Saturated Differential Pressure (25% - 100% Rated Flow) ISO12500-1 Challenge - 40mg/m³ AOPX010 AOPX015 & AOPX020 AOPX025 & AOPX030 AOPX035, AOPX040 & AOPX045 AOPX050 & AOPX055 OIL-X Grades AO & AA - Differential Pressure Curves 25% 50% 75% 100% Percentage of Rated Flow Differential Pressure [mbar] AOPX010 AOPX015 & AOPX020 AOPX025 & AOPX030 AOPX035, AOPX040 & AOPX045 AOPX050 & AOPX055 0 OIL-X Grade AO Dry Particulate Filter Initial Dry Differential Pressure (25% - 100% Rated Flow) 10 20 30 40 50 60 70 25% 50% 75% 100% 20 40 60 80 100 120 OIL-X Grade AA Coalescing Filter Initial Saturated Differential Pressure (25% - 100% Rated Flow) ISO12500-1 Challenge - 10mg/m³ Percentage of Rated Flow Differential Pressure [mbar] 0 140 AAPX010 AAPX015 & AAPX020 AAPX025 & AAPX030 AAPX035, AAPX040 & AAPX045 AAPX050 & AAPX055 25% 50% 75% 100% 10 20 30 40 50 60 OIL-X Grade AA Dry Particulate Filter Initial Dry Differential Pressure (25% - 100% Rated Flow) Percentage of Rated Flow Differential Pressure [mbar] 0 70 AAPX010 AAPX015 & AAPX020 AAPX025 & AAPX030 AAPX035, AAPX040 & AAPX045 AAPX050 & AAPX055
17 Weight & Dimensions Model Height (H) Width (W) Depth (D) Weight mm ins mm ins mm ins kg lbs PX010 180 7.09 76 2.99 65 2. 56 0.81 1.78 PX015 238 9.37 89 3.50 84 3.31 1.41 3.10 PX020 238 9.37 89 3.50 84 3.31 1.41 3.10 PX025 277 10.91 120 4.72 115 4.53 2.66 5.86 PX030 367 14.45 120 4.72 115 4.53 3.01 6.63 PX035 440 17.32 164 6.46 157 6.18 6.87 15.14 PX040 532 20.94 164 6.46 157 6.18 7.18 15.82 PX045 532 20.94 164 6.46 157 6.18 7.18 15.82 PX050 654 25.75 192 7.56 183 7.20 10.18 22.43 PX055 844 33.23 192 7.56 183 7.20 15.78 34.78 W H D W H D Parker Catalogue Numbers (BSPP Models) Model General Purpose Coalescing Filters General Purpose Dry Particulate Filters High Efficiency Coalescing Filters High Efficiency Dry Particulate Filters PX010A AOPX010AGFX AOPX010AGMX AAPX010AGFX AAPX010AGMX PX010B AOPX010BGFX AOPX010BGMX AAPX010BGFX AAPX010BGMX PX010C AOPX010CGFX AOPX010CGMX AAPX010CGFX AAPX010CGMX PX015C AOPX015CGFX AOPX015CGMX AAPX015CGFX AAPX015CGMX PX020C AOPX020CGFX AOPX020CGMX AAPX020CGFX AAPX020CGMX PX020D AOPX020DGFX AOPX020DGMX AAPX020DGFX AAPX020DGMX PX025D AOPX025DGFX AOPX025DGMX AAPX025DGFX AAPX025DGMX PX025E AOPX025EGFX AOPX025EGMX AAPX025EGFX AAPX025EGMX PX030G AOPX030GGFX AOPX030GGMX AAPX030GGFX AAPX030GGMX PX035G AOPX035GGFX AOPX035GGMX AAPX035GGFX AAPX035GGMX PX040H AOPX040HGFX AOPX040HGMX AAPX040HGFX AAPX040HGMX PX045I AOPX045IGFX AOPX045IGMX AAPX045IGFX AAPX045IGMX PX050I AOPX050IGFX AOPX050IGMX AAPX050IGFX AAPX050IGMX PX055I AOPX055IGFX AOPX055IGMX AAPX055IGFX AAPX055IGMX PX055J AOPX055JGFX AOPX055JGMX AAPX055JGFX AAPX055JGMX
18 www.parker.com/gsfe Compressed Air Filters Filtration Performance Filtration Grade Filter Type Particle Reduction (inc water & oil aerosols) Maximum Remaining Oil Content at 21°C (70°F) Filtration Efficiency Initial Dry Differential Pressure Initial Saturated Differential Pressure Change Element Every Precede with Filtration Grade AO Coalescing & Dry Particulate Down to 1 micron 0.5 mg/m³ 0.5 ppm(w) 99.925% <70 mbar (1 psi) <125 mbar (1.8 psi) 12 months WS (for bulk liquid) AA Coalescing & Dry Particulate Down to 0.01 micron 0.01 mg/m³ 0.01 ppm(w) 99.9999% <70 mbar (1 psi) <125 mbar (1.8 psi) 12 months AO ACS Oil Vapour Reduction N/A 0.003 mg/m³ 0.003 ppm(w) N/A <140 mbar (2 psi) N/A When oil vapour is detected AO+AA To correctly select a filter model, the flow rate of the filter must be adjusted for the minimum operating (inlet) pressure at the point of installation. 1. Obtain the minimum operating (inlet) pressure and maximum compressed air flow rate at the inlet of the filter. 2. Select the correction factor for minimum inlet pressure from the CFMIP table (always round down e.g. for 5.3 bar, use 5 bar correction factor). 3. Calculate the minimum filtration capacity. Minimum Filtration Capacity = Compressed Air Flow Rate x CFMIP. 4. Using the minimum filtration capacity, select a filter model from the flow rate tables above (filter selected must have a flow rate equal to or greater than the minimum filtration capacity). Minimum Inlet Pressure barg 1 2 3 4 5 6 7 8 910111213141516 psi g 15 29 44 58 73 87 100 116 131 145 160 174 189 203 218 232 Correction Factor 2.65 1.87 1.53 1.32 1.18 1.08 1.00 0.94 0.88 0.84 0.80 0.76 0.73 0.71 0.68 0.66 Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. For flows at other pressures, apply the correction factors shown below. Product Selection & Correction Factors Important Note: Using the same filter housings as their coalescing and dry particulate counterparts in the OIL-X range, Grade ACS filter elements differ in that they utilise a deep wrapped bed of carbon cloth to adsorb oil vapour. It is important to note, in-line adsorption filter elements have a different life span compared to coalescing and dry particulate filters and require more frequent element changes. Should a 12 month service period be required, Parker OIL-X Grade OVR oil vapour reduction filters are recommended. OIL-X Coalescing/Dry Particulate/ Oil Vapour Reduction Filters (Carbon Steel) Filter Coding Example Grade Model Pipe Size Thread Drain Option Incident Monitor Option AO AA ACS 3 digit code denotes filter housing size Letter denotes pipe size D = Din Flange E = Electronic M = Manual I = Indicator X = None Example code AO 090 P D E X = Replace with drain type - E (electronic) or M (manual) CFMIP - Correction Factor Minimum Inlet Pressure Flow Rates Model Pipe Size L/S m³/min m³/hr cfm Replacement Element No. 065ND X DN80 620 37.2 2232 1312 200 1 070OD X DN100 1240 74.4 4464 2625 200 2 075PD X DN150 1860 111.6 6696 3938 200 3 080PD X DN150 2480 148.8 8928 5251 200 4 085QD X DN200 3720 223.2 13392 7877 200 6 090RD X DN250 6200 372 22320 13129 200 10 095SD X DN300 8680 520.8 31248 18380 200 14 Grade Grade Grade Grade Grade Grade Grade Grade Grade Grade Grade Grade Grade Grade Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F AO/AA 065 - 095 (Electronic Drain) 1 15 16 232 2 35 60 140 065 - 095 (Manual Drain) 1 15 16 232 2 35 100 212 ACS 065 - 095 (Manual Drain) 1 15 16 232 2 35 50 122
19 Weight & Dimensions Model Height (H) Width (W) Depth (D) Weight mm ins mm ins mm ins kg lbs 065ND 1065 42 440 17.3 340 13.4 70 154 070OD 1152 45.4 500 19.7 405 16 97 214 075PD 1256 49.5 600 23.6 520 20.5 148 326 080PD 1332 52.4 650 25.6 580 22.8 187 412 085QD 1415 55.7 750 29.5 640 25.2 240 529 090RD 1603 63.1 1000 39.4 840 33 470 1036 095SD 1706 67.2 1050 41.3 910 35.8 580 1279 Parker Catalogue Numbers (No DPI) Model Catalogue Number General Purpose Coalescing Filters Catalogue Number General Purpose Dry Particulate Filters Catalogue Number High Efficiency Coalescing Filters Catalogue Number High Efficiency Dry Particulate Filters Catalogue Number Oil Vapour Reduction Filters 065N AO065NDEX AO065NDMX AA065NDEX AA065NDMX ACS065NDMX 070O AO070ODEX AO070ODMX AA070ODEX AA070ODMX ACS070ODMX 075P AO075PDEX AO075PDMX AA075PDEX AA075PDMX ACS075PDMX 080P AO080PDEX AO080PDMX AA080PDEX AA080PDMX ACS080PDMX 085Q AO085QDEX AO085QDMX AA085QDEX AA085QDMX ACS085QDMX 090P AO090RDEX AO090RDMX AA090RDEX AA090RDMX ACS090RDMX 095S AO095SDEX AO095SDMX AA095SDEX AA095SDMX ACS095SDMX Parker Catalogue Numbers (With DPI) Model Catalogue Number General Purpose Coalescing Filters Catalogue Number General Purpose Dry Particulate Filters Catalogue Number High Efficiency Coalescing Filters Catalogue Number High Efficiency Dry Particulate Filters 065N AO065NDEI AO065NDMI AA065NDEI AA065NDMI 070O AO070ODEI AO070ODMI AA070ODEI AA070ODMI 075P AO075PDEI AO075PDMI AA075PDEI AA075PDMI 080P AO080PDEI AO080PDMI AA080PDEI AA080PDMI 085Q AO085QDEI AO085QDMI AA085QDEI AA085QDMI 090P AO090RDEI AO090RDMI AA090RDEI AA090RDMI 095S AO095SDEI AO095SDMI AA095SDEI AA095SDMI W H D Approx 170mm
20 www.parker.com/gsfe Compressed Air Filters OIL-X Point Of Use Oil Vapour Reduction Filters Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. To correctly select a filter model, the flow rate of the filter must be adjusted for the minimum operating (inlet) pressure at the point of installation. 1. Obtain the minimum operating (inlet) pressure and maximum compressed air flow rate at the inlet of the filter. 2. Select the correction factor for minimum inlet pressure from the CFMIP table (always round down e.g. for 5.3 bar, use 5 bar correction factor). 3. Calculate the minimum filtration capacity. Minimum Filtration Capacity = Compressed Air Flow Rate x CFMIP. 4. Using the minimum filtration capacity, select a filter model from the flow rate tables above (filter selected must have a flow rate equal to or greater than the minimum filtration capacity). Product Selection & Correction Factors Model Pipe Size L/S m³/min m³/hr cfm Replacement Element No. ACSPX010A MX 1/4" 10 0.6 36 21 P010ACS 1 ACSPX010B MX 3/8" 10 0.6 36 21 P010ACS 1 ACSPX010C MX 1/2" 10 0.6 36 21 P010ACS 1 ACSPX015B MX 3/8" 20 1.2 72 42 P015ACS 1 ACSPX015C MX 1/2" 20 1.2 72 42 P015ACS 1 ACSPX020C MX 1/2" 30 1.8 108 64 P020ACS 1 ACSPX020D MX 3/4" 30 1.8 108 64 P020ACS 1 ACSPX025D MX 3/4" 60 3.6 216 127 P025ACS 1 ACSPX025E MX 1" 60 3.6 216 127 P025ACS 1 ACSPX030E MX 1" 110 6.6 396 233 P030ACS 1 ACSPX030G MX 11/2" 110 6.6 396 233 P030ACS 1 ACSPX035G MX 11/2" 160 9.6 576 339 P035ACS 1 ACSPX040H MX 2" 220 13.2 792 466 P040ACS 1 ACSPX045H MX 2" 330 19.8 1188 699 P045ACS 1 ACSPX045I MX 21/2" 330 19.8 1188 699 P045ACS 1 ACSPX050I MX 21/2" 430 25.9 1548 911 P050ACS 1 ACSPX055I MX 21/2" 620 37.3 2232 1314 P055ACS 1 ACSPX055J MX 3" 620 37.3 2232 1314 P055ACS 1 Initial Dry Differential Pressure 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi 61 0.9 35 0.5 15 0.2 9 0.1 53 0.8 32 0.5 19 0.3 8 0.1 55 0.8 31 0.4 18 0.3 7 0.1 65 0.9 33 0.5 13 0.2 5 0.1 46 0.7 37 0.5 20 0.3 9 0.1 77 1.1 35 0.5 15 0.2 7 0.1 79 1.1 37 0.5 17 0.2 8 0.1 66 1.0 34 0.5 14 0.2 4 0.1 46 0.7 24 0.3 13 0.2 4 0.1 57 0.8 27 0.4 16 0.2 8 0.1 65 0.9 35 0.5 15 0.2 5 0.1 26 0.4 12 0.2 8 0.1 4 0.1 36 0.5 23 0.3 13 0.2 4 0.1 49 0.7 34 0.5 17 0.2 6 0.1 68 1.0 40 0.6 20 0.3 6 0.1 50 0.7 30 0.4 15 0.2 5 0.1 61 0.9 36 0.5 16 0.2 12 0.2 50 0.7 35 0.5 17 0.2 5 0.1 Filtration Performance Filtration Grade Filter Type Particle Reduction (inc. water & oil aerosols) Max. Remaining Oil Content at 21°C (70°F) Filtration Efficiency Change Element Every Precede with Filtration Grade ACS Oil Vapour Reduction N/A 0.003 mg/m³ 0.003 ppm(w) N/A When oil vapour is detected AO + AA Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F ACS PX010 - PX055 (Manual Drain) 1 15 20 290 2 35 50 122 CFMIP - Correction Factor Minimum Inlet Pressure Minimum Inlet Pressure barg 1 2 3 4 5 6 7 8 91011121314151617181920 psi g 15 29 44 58 73 87 100 116 131 145 160 174 189 203 218 232 248 263 277 290 Correction Factor 2.65 1.87 1.53 1.32 1.18 1.08 1.00 0.94 0.88 0.84 0.80 0.76 0.73 0.71 0.68 0.66 0.64 0.62 0.61 0.59 G G G G G G G G G G G G G G G G G G When selecting a coalescing filter for pressures above 16 bar g (232 psi g), use manual drain version and fit an external automatic drain. Select for BSPP Threads/Select for NPT Threads G N
21 Parker Catalogue Numbers (BSPP Models) Model Catalogue Number Oil Vapour Reduction Filters PX010A ACSPX010AGMX PX010B ACSPX010BGMX PX010C ACSPX010CGMX PX015C ACSPX015CGMX PX020C ACSPX020CGMX PX020D ACSPX020DGMX PX025D ACSPX025DGMX PX025E ACSPX025EGMX PX030G ACSPX030GGMX PX035G ACSPX035GGMX PX040H ACSPX040HGMX PX045I ACSPX045IGMX PX050I ACSPX050IGMX PX055I ACSPX055IGMX PX055J ACSPX055JGMX W H D W H D 010 - 030 040 - 055 Weights & Dimensions Model Height (H) Width (W) Depth (D) Weight mm ins mm ins mm ins kg lbs PX010 180 7.09 76 2.99 65 2.56 0.81 1.78 PX015 238 9.37 89 3.50 84 3.31 1.41 3.10 PX020 238 9.37 89 3.50 84 3.31 1.41 3.10 PX025 277 10.91 120 4.72 115 4.53 2.66 5.86 PX030 367 14.45 120 4.72 115 4.53 3.01 6.63 PX035 440 17.32 164 6.46 157 6.18 6.87 15.14 PX040 532 20.94 164 6.46 157 6.18 7.18 15.82 PX045 532 20.94 164 6.46 157 6.18 7.18 15.82 PX050 654 25.75 192 7.56 183 7.20 10.18 22.43 PX055 844 33.23 192 7.56 183 7.20 15.78 34.78 Multi-box Replacement Filter Elements OIL-X Housing Multi-Box Part Number Box Quantity PX010 & P010 P010ACSX25 25 PX015 & P015 P015ACSX25 25 PX020 & P020 P020ACSX25 25 PX025 & P025 P025ACSX12 12 PX030 & P030 P030ACSX12 12 PX035 & P035 P035ACSX15 15 PX040 & P040 P040ACSX15 15 PX045 & P045 P045ACSX15 15
22 www.parker.com/gsfe Compressed Air Filters OIL-X OVR Plant Scale Oil Vapour Reduction Filtration Performance Filtration Grade Filter Type Particle Reduction (inc Water & Oil Aerosols) Maximum Remaining Oil Content* Filtration Efficiency Initial Dry Differential Pressure Initial Saturated Differential Pressure Adsorbent Life Precede with Grade OVR Oil Vapour Reduction N/A ≤0.003 mg/m3 ≤0.003 ppm (w) N/A <350 mbar <5 psi N/A *12 months AO + AA *At system operating temperature and when corrected to match systems conditions. Technical Data Filtration Grade Filter Models Minimum Operating Pressure Maximum Operating Pressure Minimum Operating Temperature Maximum Operating Temperature bar g psi g bar g psi g °C °F °C °F OVR P300H - P550I 1 15 16 232 2 35 50 122 Model Pipe Size L/s m3/min m3/hr cfm Replacement Cartridge No. OVRP300H XX 2 80 4.8 289 170 P300OVR 1 OVRP350H XX 2 163 9.8 586 345 P350OVR 1 OVRP400I XX 21/2" 326 19.6 1172 690 P400OVR 1 OVRP450I XX 21/2" 488 29.4 1758 1035 P450OVR 1 OVRP500I XX 21/2" 651 39.2 2345 1380 P500OVR 1 OVRP550I XX 21/2" 814 48.9 2931 1725 P550OVR 1 2 x OVRP550I XX 21/2" 1629 97.9 5862 3451 P550OVR 2 3 x OVRP550I XX 21/2" 2443 146.8 8793 5176 P550OVR 3 4 x OVRP550I XX 21/2" 3257 195.8 11724 6901 P550OVR 4 5 x OVRP550I XX 21/2" 4071 244.7 14656 8626 P550OVR 5 3 Calculate minimum filtration capacity Minimum filtration Capacity = Compressed Air Flow x CFIT x CFMIP x CFID x CFIV • Using the minimum filtration capacity, select an OVR model from the flow rate tables. • The OVR model selected must have a flow rate equal to or greater than the minimum filtration capacity. • If the minimum filtration capacity exceeds the maximum values of the models shown within the tables, please contact Parker for advice regarding larger multi-banked units. Flow Rates Stated flows are for operation at 7 bar (g) (102 psi g) with reference to 20°C, 1 bar (a), 0% relative water vapour pressure. Differential Pressure (OVR Only) 100% Flow 75% Flow 50% Flow 25% Flow mbar psi mbar psi mbar psi mbar psi 350 5.1 198 2.9 46 0.7 11 0.2 350 5.1 198 2.9 46 0.7 11 0.2 350 5.1 198 2.9 46 0.7 11 0.2 350 5.1 198 2.9 46 0.7 11 0.2 350 5.1 198 2.9 46 0.7 11 0.2 1 System Information Required for OVR Sizing & Selection • Minimum pressure at the inlet of the OVR • Compressor type (oil lubricated or oil free) • Maximum inlet temperature at the inlet of the OVR (highest summer inlet temp) • Maximum compressed air flow rate • Dewpoint of the compressed air (i.e. is the proposed location of the unit before or after a compressed air dryer) • Oil vapour concentration expected at the inlet of the OVR (default is 0.05 mg/m³) 2 Select correction factors • For minimum inlet pressure, select a correction factor from the CFIP table that corresponds to the minimum inlet pressure of the compressed air system, remembering to always round down e.g. for 5.3 bar g use the 5 bar g correction factor. • For maximum inlet temperature there are two tables, one for use with an oil lubricated compressor, the other for oil free compressor. Select a correction factor from the CFIT table for the relevant compressor type, remembering to always round up e.g. for 37°C use the 40°C correction factor. • For pressure dewpoint, select a correction factor from the CFID table. • For oil vapour concentration, select a correction factor from the CFIV table, remembering to always round up e.g. for 3.25g/m3 use the correction factor for 4mg/m3. Select for BSPP Threads/Select for NPT Threads G N G G G G G G G G G G
23 Parker Catalogue Numbers Model Catalogue Number Plant Scale Oil Vapour Reduction (BSPP) Catalogue Number Plant Scale Oil Vapour Reduction (NPT) OVRP300 OVRP300HGXX OVRP300HNXX OVRP350 OVRP350HGXX OVRP350HNXX OVRP400 OVRP400HGXX OVRP400HNXX OVRP450 OVRP450IGXX OVRP450INXX OVRP500 OVRP500IGXX OVRP500INXX OVRP550 OVRP550IGXX OVRP550INXX OVR 300 W H D OVR 350 - OVR 550 W H D Correction Factors Inlet Temperature (CFIT) Oil Lubricated Compressors °C °F Correction Factor 25 77 1.00 30 86 1.00 35 95 1.00 40 104 1.25 45 113 1.55 50 122 1.90 Correction Factors Inlet Temperature (CFIT) Oil-free Compressors °C °F Correction Factor 25 77 1.00 30 86 1.00 35 95 1.00 40 104 1.02 45 113 1.04 50 122 1.05 Correction Factor - Dewpoint (CFID) Installation Correction Factor After Dryer 1.00 Before Dryer 4.00 Correction Factor Minimum Inlet Pressure (CFMIP) Minimum Inlet Pressure bar g 3 4 5 6 7 8 9 10111213141516 psi g 44 58 73 87 100 116 131 145 160 174 189 203 218 232 Correction Factor 2.00 1.60 1.33 1.14 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Correction Factor Inlet Vapour Content (CFIV) Inlet Vapour Concentration mg/m3 0.05 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 2.0 3.0 4.0 5.0 Correction Factor 1 2 4 6 8 101214161820406080100 Weight & Dimensions Models Height (H) Width (W) Depth (D) Weight mm ins mm ins mm ins kg lbs OVRP300 998 39.3 534 21.0 350 13.8 38 84 OVRP350 1062 41.8 538 21.2 550 21.7 67 147 OVRP400 1062 41.8 682 26.9 550 21.7 93 205 OVRP450 1062 41.8 836 32.9 550 21.7 121 267 OVRP500 1062 41.8 1005 39.6 550 21.7 144 318 OVRP550 1062 41.8 1174 46.2 550 21.7 171 377
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