This paste may not be lined up correctly, but you can get the info.
For the 1 inch , paper, short, 10 micron, Napa 1259 is fine. 1628 is the longer can and larger flows, longer life, more dirt holding.
Wix and other numbers are also below.
I am partial to microglass/synthetic elements. Better in every way, except initial cost. Overall cost is less and better filters. Hard to get though.
TYPICAL REPLACEMENT ELEMENTS
1-12 CENTER POST THREAD SAE STANDARD THREADED SPIN-ON ELEMENTS
-Flow rating, by advertising = 20-30 gpm.
-Flow rating, by pressure drops and reasonable design decisions = 10-15 gpm (short cans)
-Can diameter: usually 3.5 to 3.8 inches
-Can length: Short = 5.2 to 5.5 usually, about the size of a full sized auto oil filter.
Long = 7.5 to 8.6 usually. Advantage: more flow capacity, or lower
pressure drop, and more dirt holding. Not easily found in consumer outlets.
-All: no bypass relief, no anti drainback
-Paper (cellulose) media is most common and cheaper. Glass fiber (synthetic) has less pressure drop, better filtration, more dirt holding, and longer life. Most industrial hydraulic filters are glass fiber. I would recommend them if available.
-Paper media has some water removal capability, but very small amounts and only when in low flow (1-3 gpm maybe) circuits. Not effective in higher flow return circuits.
-Water removal elements with crystals absorb larger amounts of water, but not in higher flow return circuits.
-Nominal 10 micron in consumer grade materials may have Beta ratio of only about 2 (removes 50% per pass at 10u.) Thus the recommendation for 10u instead of 20 to 33u.
-Industrial filters of nominal 10 micron may be Beta ratios greater than 200 (removes 99.5% of 10 micron per pass.) For the rating at Beta of 2, this would be equivalent to about a 3 to 5 micron 'consumer' filter.
-My first choice: 10u, long element, glass fiber media.
-My second choice: 10u long element, paper media NAPA 1628
-My third choice: 10u, short element, glass media
-My fourth choice (and most common): 10u, short element, paper media NAPA 1259 or 1551
BRAND PART NUMBER NOMINAL MICRON RATING MEDIA SIZE LENGTH
NAPA 1551 10 PAPER SHORT
NAPA Gold 1259 10 PAPER SHORT
NAPA 1628 10 PAPER LONG 7.8
BALDWIN /HASTINGS BT8428-MPG 10 ? GLASS SHORT
BALDWIN /HASTINGS BT839-10 10 PAPER SHORT
WIX 51551 10 PAPER SHORT
PUROLATOR 20101 10 PAPER SHORT
PUROLATOR 20201 10 PAPER LONG
PUROLATOR 20103 10 GLASS SHORT
PUROLATOR 20203 10 GLASS LONG
ZINGA AE10 10 PAPER SHORT
ZINGA AE10L 10 PAPER LONG 8.2
ZINGA ZAE10 10 GLASS SHORT
ZINGA ZAE10L 10 GLASS LONG 8.2
BRAND PART NUMBER NOMINAL MICRON RATING MEDIA SIZE LENGTH
CHOICES NOT RECOMMENDED, BUT WOULD WORK
NAPA 1552 20 PAPER SHORT
NAPA 1553 33 PAPER SHORT
BALDWIN BT839 (without -10) 33u ?
FRAM 1653A 33 ? PAPER SHORT
CROSS 1A9023 33 ?
NAPA 1772 25 PAPER LONG 7.8
WIX 51553 33 PAPER SHORT
Wix Purolator NAPA A03A10G9 is long glass 10u, but klspecial order?
HIGHER FLOW, LARGER POST SAE SPIN ON
Although the SAE standard is for a 1-1/2 x 16 threaded center post, most filter heads using these larger elements have post threads for two possible elements:
1. The common European filter in this size has 1-1/4 BSPP (1.65 inch thread OD) threads on the post closest to the aluminum casting. The filter housing is similar to an auto oil filter, with the center threaded attachment being roughly flush with the gasket surface. The element gasket is also similar to an auto oil filter, being a flat surface slightly inside of the element outside diameter.
2. The common North American/SAE filter is often called 'Gresen/Cross interchange', from the original manufacturers of this style. Post thread is 1-1/2 x 16, is slightly smaller than the BSPP, and is inset further into the element can. Thus, the head post often has BSPP threads closest to the casting, then 1.50-16 threads further down.
The 'Gresen/Cross' element has the threads inset, forming a cone shaped depression into the end of the element can. The gasket is also at the very outside corner of the element and is typically an L shaped gasket. The gasket is often not included with the element and must be ordered separately.
-Flow rating, by advertising = 30-50 gpm.
-Flow rating, by pressure drops and reasonable design decisions = 25-40 gpm (short can)
-Can diameter: usually 5.0 to 5.1 inches
-Can length: Short = 6.5 to 7 inches
Long = 10.5 to 11 inches. Advantage: more flow capacity, or lower
pressure drop, and more dirt holding
-All: no bypass relief, no anti drainback
-Paper (cellulose) media is most common and cheaper. Glass fiber (synthetic) has less pressure drop, better filtration, more dirt holding, and longer life. Most industrial hydraulic filters are glass fiber. I would recommend them if available.
-Paper media has some water removal capability, but very small amounts and only when in low flow (1-3 gpm maybe) circuits. Not effective in higher flow return circuits.
-Water removal elements with crystals absorb larger amounts of water, but not in higher flow return circuits.
-My first choice:
-My second choice: 10u long element, paper media
-My third choice: 10u, short element, glass media
-My fourth choice (and most common): 10u, short element, paper media NAPA 1746
BRAND PART NUMBER NOMINAL MICRON RATING MEDIA SIZE LENGTH & NOTES
NAPA 1746 5 to10 PAPER SHORT 6.9 no gasket
NAPA Gold 10 PAPER SHORT
NAPA 10 PAPER LONG
GASKET (SEAL)
BALDWIN /HASTINGS 10 ? GLASS SHORT
BALDWIN /HASTINGS 10 PAPER SHORT
WIX 10 PAPER SHORT
MP Filtri
CSG100-A10 <5
GLASS
SHORT
PUROLATOR 10 PAPER SHORT
PUROLATOR 10 PAPER LONG
PUROLATOR 10 GLASS SHORT
PUROLATOR 10 GLASS LONG
ZINGA ZGCE-10 10 GLASS SHORT
ZINGA ZGLE-10 10 GLASS LONG
ZINGA 10 GLASS