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AP4004705

Millipore

Glass Fiber Membrane Filter, 0.7 μm Pore Size

Millipore, filter diam. 47 mm, hydrophilic, thickness 475 μm, pkg of 100 ea

Synonym(s):

Glass Fiber Filter without binder, Glass Fiber membrane filter, Glass Fiber membrane filter discs, Hydrophilic Glass Fiber membrane filter

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About This Item

UNSPSC Code:
40161507
eCl@ss:
32031602
NACRES:
NB.24

material

glass fiber membrane
plain filter
white filter

Agency

suitable for EPA OTM-45

description

0.7 µm pore size, hydrophilic glass fiber, 47 mm diameter

sterility

non-sterile

feature

hydrophilic

packaging

pkg of 100 ea

manufacturer/tradename

Millipore

parameter

>300 mL/min-cm2 water flow rate (at 27 in Hg)
550 °C max. temp.

filter diam.

47 mm

thickness

475 μm

pore size

0.7 μm pore size
90 % porosity

shipped in

ambient

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General description

Filter Code: AP40
Filter Type: Depth filter
Overview
Millipore fibrous disc filters are available in a wide range of flow rates and throughput capacities. Our Glass Fiber filters are available with or without binder resins and can be sterilized by EO, gamma, or autoclave (121 °C at 1 bar).

Glass Fiber Filters with Binder Resin:
Millipore filters with binder resin have superior wet strength and are excellent for qualitative analysis and prefiltration, especially for heavily contaminated liquids. They are also widely used for clarification of aqueous solutions.

Type AP15
•Lowest dirt-holding capacity
•Recommended prefilter for 0.2 to 0.6 µm filters

Type AP20
•Lower retention, higher dirt-holding capacity than AP15 filters
•Recommended prefilter for 0.8 to 8.0 µm filters
•Use upstream to protect type AP15 filters

Type AP25
•Added thickness yields same retention and greater dirt-holding capacity as AP20
•Recommended prefilter for 0.9 to 8 µm filters, especially for proteinaceous and heavily contaminated liquids
•Use upstream to protect type AP15 filters

Glass Fiber Filters without Binder Resin:
The filters without binder resin retain their structural integrity without weight loss when heated up to 500 °C and can therefore be used in gravimetric analysis as well as for the filtration of hot gases.

Type APFA
•Retains fine particles with good efficiency, even at high flow rates
•Recommended for monitoring wastewater and collecting suspended particles in gases (e.g., fumes from chimneys)
•Use in biochemical applications (e.g., collection of cells and filtration of protein or nucleic acid precipitates)

Type APFB
•Higher mechanical strength when wet and greater loading capacity than type APFA filters
•Use for liquid clarification, quantification of solids in suspensions of fine particles, and scintillation counting

Type APFC
•Greater retention, especially for fine particulate and microorganism removal than type APFA filters
•Use for determining total suspended solids in drinking water
•Use for filtering proteins or nucleic acid TCA precipitates and for collecting cells and microorganisms

Type APFD
•Thick filter with high flow and low retention
•Use for clarifying suspensions containing particulates greater than 1.0 µm

Type APFF
•Use for filtering extremely fine precipitates such as protein, nucleic acids, or serum precipitates
•Recommended for USEPA method 1311 for TCLP analysis

Type AP40
•Recommended for Standard Methods Total Suspended Solids 2540D
•Recommended for USEPA method 1311 for TCLP analysis
•Maintains structural integrity without weight loss when ignited to 550 °C (1022 °F) after sample filtration
•Recommended for determining volatile suspended matter in wastewater and industrial effluents

Application

  • Total Suspended Solids 2540D
  • EPA method 1311 for TCLP analysis
  • Determining volatile suspended matter in wastewater and industrial effluents

Stack Testing for PFAS via OTM-45

Certificates of Analysis (COA)

Search for Certificates of Analysis (COA) by entering the products Lot/Batch Number. Lot and Batch Numbers can be found on a product’s label following the words ‘Lot’ or ‘Batch’.

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Anton Taboada-Santos et al.
Water research, 169, 115258-115258 (2019-11-12)
Novel wastewater treatment plants (WWTPs) are designed to be more energy efficient than conventional plants. One approach to becoming more energy efficient is the pre-concentration of organic carbon through chemically enhanced primary treatment (CEPT) or high-rate activated sludge (HRAS). This
Rodrigo B Carneiro et al.
Journal of hazardous materials, 389, 121888-121888 (2019-12-28)
Understanding the role of the different anaerobic digestion stages on the removal of organic micropollutants (OMPs) is essential to mitigate their release from wastewater treatment plants. This study assessed the fate of 21 OMPs during hydrolysis and acidogenesis to elucidate
Raquel A F Neves et al.
Ecotoxicology and environmental safety, 195, 110465-110465 (2020-03-22)
Complementary studies at different levels of the biological organization are fundamental to fully link environmental exposure to marine benthic dinoflagellate toxins and their effects. In order to contribute to this transdisciplinary evaluation, and for the first time, the present study

Articles

Data and recommended filtration products for OTM-45 Method for Air Monitoring of PFAS Compounds.

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