Difference between revisions of "Pump - Mono MS"
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− | The MS pump has been in manufacture for at least 40 years and spare parts are still available. New these pumps retail at several hundred pounds but, although they don't appear frequently, they can be found second hand at reasonable prices on on line auction sites. | + | The MS pump has been in manufacture for at least 40 years and spare parts are still available. New these pumps retail at several hundred pounds but, although they don't appear frequently, they can be found second hand at reasonable prices on on-line auction sites. |
− | The design is self priming and can be considered as a positive displacement pump. It is capable of pumping a large range of media including slurries and small entrained solids, although the latter will obviously | + | The design is self priming and can be considered as a positive displacement pump. It is capable of pumping a large range of media including slurries and small entrained solids, although the latter will obviously induce premature ware. Different stator materials are available and the writer has had a viton stator pumping bio and vegetable oil in an MS pump for nearly five years at the time of writing with no noticeable adverse effects. |
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*power(kw) ... 0.18 | *power(kw) ... 0.18 | ||
− | *Max. head ... | + | *Max. head ... 35.6m |
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*Flow at 1450rpm ... 12.5 L/min @ 0 bar - 5.3 L/min @ 3.5 bar. | *Flow at 1450rpm ... 12.5 L/min @ 0 bar - 5.3 L/min @ 3.5 bar. | ||
− | *Max. | + | *Max. suction head ... 8m (self priming) |
*Max operating temperature ... TBA | *Max operating temperature ... TBA | ||
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<gallery caption="Mono MS mechanical seal rebuild" widths="400px" heights="300px" perrow="2" align="center"> | <gallery caption="Mono MS mechanical seal rebuild" widths="400px" heights="300px" perrow="2" align="center"> | ||
File:Mono ms2 seal parts and rotor.jpg|Components of the seal. Top is the piece of fabric that had found its way into the seal, and a new O ring beneath the components. Rotor is at the bottom. | File:Mono ms2 seal parts and rotor.jpg|Components of the seal. Top is the piece of fabric that had found its way into the seal, and a new O ring beneath the components. Rotor is at the bottom. | ||
− | File:Mono ms3 old and new o ring.JPG| | + | File:Mono ms3 old and new o ring.JPG|Damage was noted as score marks on the seal faces and the profile of the O ring (it was assumed that the item was originally a circular cross section) which had adopted more of a square section. Photo shows a comparison with a new O ring. A 20mm ID and 3.5mm section O ring was found to be a suitable replacement. |
− | File:Mono ms4 thrower ring.JPG|A rubber thrower ring is located on the | + | File:Mono ms4 thrower ring.JPG|A rubber thrower ring is located on the parallel section of the stator (once it's screwed onto the motor shaft). |
File:Mono ms5 mechanical seal static track.JPG|View showing the static, brass track of the mechanical seal located in the pump body. | File:Mono ms5 mechanical seal static track.JPG|View showing the static, brass track of the mechanical seal located in the pump body. | ||
File:Mono ms6 old o ring section.JPG|The O ring was cut to reveal just how misshapen it was. | File:Mono ms6 old o ring section.JPG|The O ring was cut to reveal just how misshapen it was. | ||
File:Mono ms7 assembled seal.JPG|The seal assembled on the stator. The O ring within the black ceramic disk can slide along the shaft, obviating the need for bellows. In the background is the old O ring and the fabric causing the leak. | File:Mono ms7 assembled seal.JPG|The seal assembled on the stator. The O ring within the black ceramic disk can slide along the shaft, obviating the need for bellows. In the background is the old O ring and the fabric causing the leak. | ||
− | File:Mono ms8 part assembled pump.JPG | + | File:Mono ms10 damaged ceramic.jpg|Score marks on the seal face was most likely caused by this bit of swarf embedded in the rotating half of the seal. |
− | File:Mono ms9 part assembled pump with stator.JPG | + | File:Mono ms11 seal fixed half location.jpg|The brass, stationary half of the seal is an easy push fit into a rubber bush mounted in the pump body. |
+ | File:Mono ms12 lapped seal.jpg|Both faces of the seal were gently sanded flat using 800 grit wet and dry paper, backed by plate glass and lubricated with a little water and washing up liquid. They were then lapped for a long period direct on the plate glass using T-Cut. The rotating half of the seal is made from a graphite type material and the static half from a soft brass making both pieces easy to reface. | ||
+ | File:Mono ms13 seal fixed half chamfer.jpg|Reassembly was made easer by turning a small chamfer on the spigot of the static half of the seal, to help it enter its rubber housing (in the absence of a lathe the chamfer could easily be filed with a little care). | ||
+ | File:Mono ms8 part assembled pump.JPG|Pump during reassembly. It's important to note that the stator is screwed onto the motor shaft with a left hand thread. Flats are provided on the motor shaft and on the end of the rotor to allow the use of spanners. | ||
+ | File:Mono ms9 part assembled pump with stator.JPG|Stator in place on the rotor, ready for the final fitting of the pump end cover. | ||
+ | </gallery> | ||
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+ | After a few hours use, the seal started leaking again. The pump was dismantled and exactly the same problem found, tiny pieces of brass embedded in the graphite half of the seal. | ||
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+ | <gallery caption="Mono MS second mechanical seal rebuild" widths="400px" heights="300px" perrow="2" align="center"> | ||
+ | File:MS 3rd rebuild 1.jpg|Once cleaned up this was the state of the components. Note the scoring on the sealing face of the brass half. The brass washer had sharp edges and the face, where it abutted the spring was very rough. The ends of the spring were quite sharp. It therefore seemed reasonable to assume that the brass flakes were originating from the washer. | ||
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+ | File:MS 3rd rebuild 2.JPG|A new steel washer was made and all sharp edges removed. Similarly all sharp edges were removed from the spring. The mating faces of the seal were again lapped on a glass surface plate. The use of steel in place of brass for the washer wasn't considered a problem as the pump is only used for veg oil, bio and glycerine. The pump has now run for many hours without leaking. | ||
</gallery> | </gallery> | ||
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+ | During the last rebuild, a new gasket was made for the end cover. | ||
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+ | A full size template was made for the gasket and can be down loaded in .pdf format below. Cut from a Corn Flakes packet or thick card and soak in vegetable oil or grease prior to assembly. | ||
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+ | [[File:Mono MS gasket.png|300px|left|link=http://www.biopowered.co.uk/w/images/0/06/Mono_MS_gasket.pdf|thumb| Click graphic for a full size pdf of the gasket. Allow time for the file to load, it's 1.3 Meg. Print without scaling, but as a check the OD of the gasket should be 140mm.]] | ||
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+ | See also [http://www.biopowered.co.uk/w/images/7/7a/Mono_MS_manual.pdf Mono MS instruction manual] | ||
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− | + | [[User:Julian|Julian]] ([[User talk:Julian|talk]]) 21:51, 10 May 2013 (BST) | |
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+ | [[Category:Biodiesel]] | ||
+ | [[Category:Processors and equipment]] | ||
+ | [[Category:Vegetable oil]] | ||
+ | [[Category:Filtration & drying equipment]] |
Latest revision as of 19:32, 10 June 2013
Mono have been manufacturing pumps since 1935. The design is what's known as a progressive cavity pump, being a single helix rotor operating within a twin helix stator. In very simplistic terms it can be thought of as being similar to an Archimedean spiral pump.
The MS pump has been in manufacture for at least 40 years and spare parts are still available. New these pumps retail at several hundred pounds but, although they don't appear frequently, they can be found second hand at reasonable prices on on-line auction sites.
The design is self priming and can be considered as a positive displacement pump. It is capable of pumping a large range of media including slurries and small entrained solids, although the latter will obviously induce premature ware. Different stator materials are available and the writer has had a viton stator pumping bio and vegetable oil in an MS pump for nearly five years at the time of writing with no noticeable adverse effects.
The pumps ability to pump viscous liquids makes it ideal for pumping WVO and semi-solid fats.
The Mono MS has the following specifications and performance:
- power(kw) ... 0.18
- Max. head ... 35.6m
- Flow at 1450rpm ... 12.5 L/min @ 0 bar - 5.3 L/min @ 3.5 bar.
- Max. suction head ... 8m (self priming)
- Max operating temperature ... TBA
- Inlet/Outlet connections … ¾” BSP, female
- Body material ... cast iron
- Rotor material ... stainless steel
- Stator material ... synthetic nitrile rubber (standard) but others available including viton.
- Weight ... 16kg (including motor)
Mono MS mechanical seal rebuild
The writers MS pump was found leaking so was dismantled. The problem was found to be a piece of landscaping fabric (used as a filter in the system). This seal differed from others in that there are no bellows. The static seal is made by an O ring located in the ceramic disc which seals it to the shaft.
Damage was noted as score marks on the seal faces and the profile of the O ring (it was assumed that the item was originally a circular cross section) which had adopted more of a square section. Photo shows a comparison with a new O ring. A 20mm ID and 3.5mm section O ring was found to be a suitable replacement.
Both faces of the seal were gently sanded flat using 800 grit wet and dry paper, backed by plate glass and lubricated with a little water and washing up liquid. They were then lapped for a long period direct on the plate glass using T-Cut. The rotating half of the seal is made from a graphite type material and the static half from a soft brass making both pieces easy to reface.
After a few hours use, the seal started leaking again. The pump was dismantled and exactly the same problem found, tiny pieces of brass embedded in the graphite half of the seal.
Once cleaned up this was the state of the components. Note the scoring on the sealing face of the brass half. The brass washer had sharp edges and the face, where it abutted the spring was very rough. The ends of the spring were quite sharp. It therefore seemed reasonable to assume that the brass flakes were originating from the washer.
A new steel washer was made and all sharp edges removed. Similarly all sharp edges were removed from the spring. The mating faces of the seal were again lapped on a glass surface plate. The use of steel in place of brass for the washer wasn't considered a problem as the pump is only used for veg oil, bio and glycerine. The pump has now run for many hours without leaking.
During the last rebuild, a new gasket was made for the end cover.
A full size template was made for the gasket and can be down loaded in .pdf format below. Cut from a Corn Flakes packet or thick card and soak in vegetable oil or grease prior to assembly.
See also Mono MS instruction manual