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Latest News New Event Calendar Added What a Can of Worms! Earthworms in the Garden How Much Earth Could an Earthworm Move Effects of Cropping and Tree Density Working with Worms Coelomic Fluid Proteins as Basic Components The Search for Innate Immune Receptors Earthworms Help Solve Waste Problem Worm Revolutionaries Keeping Your Soil Healthy Soil Improvement with Organic Materials Is There Signaling During Earthworm Immunity? A Simulation Model of Earthworm Invasions: Secrets of Organic Rose Plant Gardening Nitrogenous Waste Excretion by Earthworms Introduction of Exotic Earthworms Inter-And Intraspecies Relationship Relationships in Earthworms Influence of Earthworm Activity Earthworms from a Sand Dune Ecosystem Most Popular Young Person's Guide to Vermicomposting Earthworm Biology The Mighty Worm Vermiculture Industry in Circular Economy Worm Bin Critter Gallery Worm Therapy: a New Treatment for IBD? Rare Earthworm Discovery Worm Digest in Transition India's Bio Fertilizer Firms on High as West Stresses Organic Foods Ice Worms: They're Real, and They're Hot Of Enzymes, Worms and Cancer Worm Study May Help Humans Live 120 Years What happened to Real Food? 'Zombie' Worms Found in North Sea Shallows Earthworms Help Beijingers Dispose of Trash Jonah and his Whale of Earthworms The Kiwi Killers Student Infects Worm With Virus Worm Digest is in Good Hands Cancer Biology: A New Cancer Player Takes the Stage Continuous Flow Bins Intro & Reviews User Rating: / 9 PoorBest  Written by Administrator    Sunday, 11 September 2005 During his time as the director of the Rothamstead Agricultural Research Station in Great Britain, Dr. Clive Edwards developed a vermicomposting system design that eliminated the labor- and time-intensive task of separating worms from the finished material. Referring to the design as "continuous flow," his method is commonly used for medium- to large-scale vermiprocessing systems around the world. In the last few years several manufacturers have generated home-scale vermicomposters based on Edwards' continuous flow concept and these systems are becoming increasingly popular. Continuous flow bins are relatively deep containers with raised floors made from widely spaced welded wires. The system is generally bedded by laying several sheets of newspaper over the wire floor, on top of which is spread roughly six inches of damp bedding. The newspaper sheets, which eventually decompose, serve to prevent bedding from initially falling through the floor until the worms have had an opportunity to work through it. Worms are added to the system and food waste is added gradually, layered with bedding material, just the same as in the top-feeding method of system management. The system is continually fed until the bin is nearly full. The worms move upward through the feedstock/bedding layers. When fed at the appropriate rate, they concentrate some four inches below the surface, where microbial activity is highest. If the system is overfed, the worms will spread throughout the bin material, reducing the efficiency of the system. Once the bin is nearly full of material, vermicompost is removed from the bottom each time the system is fed, establishing an equilibrium. Some continuous flow systems have a metal bar that sits on top of the wire floor. Vermicompost is removed by pulling the bar across the floor, which causes a thin layer of vermicompost to fall through. Some systems suggest scraping a small rake across the bottom of the floor to dislodge the vermicompost. Possible challenges to continuous flow systems Cavitation: Castings need to remain in contact, or a very short distance above, the grate for harvesting to work correctly. Sometimes the vermicompost's conditions cause it to stick together, away from that grate. This can often happen when the system is drier than recommended. The user needs to learn to adjust the system's moisture well. Advantages of continuous flow systems Ease of Use These systems accept feedstock from the top of the bin, at a height that is convenient for many users. Continuous flow designs enable the user to remove finished material from the system without having to remove the vermicompost and separate it from the worms. Continuous Flow Bins The Worm Swag pecifications: The Swag Includes: Heavy-duty fabric Fitted cover 2.0 ft2 surface area Worm SwagTM review: by Sabala The Worm Swag vermicomposter looks like a huge basketball hoop, with its dark green plastic sack hanging from a sling in place of a net. A string allows you to tie the bottom closed easily, then, when you release it, it opens up the short cylinder-shaped bottom of the sack for harvesting. I haven’t harvested castings from the Swag yet, but the picture reminds me of milking a cow! You squeeze this short cylinder (the tit) to let the castings drop through. I set up the Worm Swag on November 27th last year in the basement of my house in San Francisco. It can be hung from a tree or under a porch, but the instructions say it can weigh as much as 100 Kg (220 lbs.) and I don’t have a tree suitable for that. So, I set it up on a stand, which was easy to assemble. According to the directions, you put at least a bucketful of castings, coir or finished compost and the worms into the Swag. Then, you place the cardboard disk that comes with it on top. I placed a pound of worm castings in first, and then a bucketful of coir. I inoculated with worms from my Wriggly WranchTM. Then, I added about 1/3 or 1/4 of the material from the top tray of my bin. Because this is from an active worm bin, it included worms, undecomposed food waste and castings. I also put a lot of hand-shredded newspaper under the cardboard. I placed a bucket under the Worm Swag to catch the excess water that drips through the bottom. (Because the plastic sack is sturdy and thick, water drips through even if you tie the string tightly.) Because I was interested in how much waste the Worm Swag could process, I put increasing amounts of food waste in every month. I also put some rice bran in to raise the temperature. I never chopped my own food waste to feed the worms. As time passed by, I needed extra food waste to continue the experiment and I got it from an organic grocery store. When I had whole apples and pears, I chopped them into big-bite-sized pieces. This was by no means a scientific experiment. I don’t know how many worms I had when I started and I didn’t keep a record of the temperature. Whenever I fed the worms, I turned the bedding with a garden fork, and added newspaper and water. December, 2000: I fed a total of 11 lbs. (5.1kg) in 6 feedings plus 1 lb. (450g) of rice bran. January, 2001: I fed 34.6 lbs. (15.7kg ) in 15 feedings, plus 2 lbs. (900g) of rice bran. Feb. 1-Feb. 19: I fed 57 lbs. (25.8kg in 11 feedings, plus 1.05 lbs. (480g) of rice bran. I stopped feeding the Swag because it started to smell bad. At the same time, I became very busy and neglected it for two weeks and then found that most of the worms were gone. I think I could have revived the Swag if I had kept adding newspaper and turned it every other day or so. Compared to my other worm bin, the Wriggly Wranch, the Worm Swag tends to be dry. The lid of my Wriggly Wranch is plastic with some aeration holes. The water that evaporates in the bin will hit the lid and drop back into the system. The Worm Swag also has a lid, but it is a tightly woven nylon mesh. Usually the bottom of the cardboard disk on top is somewhat moist, but the upper side is dry. I wet the bedding with a spray bottle whenever I added food waste. Right now, my Worm Swag is in the recovery stage. I inoculated with some more worms to let them process the smelly material, which is almost all gone now. The Swag is about ready toprocess food waste regularly again. I like the Worm Swag very much because it processes a lot of food waste (unless overfed), and harvesting the castings seems to be very easy. According to the dictionary, the term Swag means "a hanging bundle." The Earth Factory Specifications: 18" x 23" x 22"H (compost chamber) 46cm x 58cm x 56cm 2.9 ft2 area Stands 32" (81cm) from floor to top. Bin comes with: 10-page instruction manual Harvesting tray and redwood lid Worm Digest comments: This company has just created this simple to operate, attractive-looking continuous flow vermicomposter. Its green, recycled plastic sides are held in a very sturdy welded tubular steel frame, which is powder-coat painted. The very nicely fitting lid is also made of attractive recycled redwood. Though our staff has not had the opportunity to use one over an extended period of time, we have seen it in use and our impression is very good. Its size should give it the ability to handle a good amount of waste and, at 32" high, the unit feels very easy to work with. Once the system reaches the "full" mark, harvesting is accomplished by moving the handle back and forth. The tray below is designed to receive the castings thus dislodged and to catch any liquid that might drip through during daily operation. The Earth FactoryTM is the most recent addition to EPM's flow-through systems and the one designed for household use in mind. The unit looks good and should work very well indoors or out. EPM, Inc. is also the manufacturer of several large flow-through worm bin systems. The EliminatorTM Specifications: EliminatorTM 300 16" x 13.5" x 18"H (compost chamber) 41cm x 34cm x 46cm 1.5 ft2 area EliminatorTM 600 19" x 25" x 18"H 48cm x 64cm x 46cm 3.3 ft2area Note: The larger (Eliminator 600) model has been discontinued. Both models stand 36" high. Bins come with: 3-pound bag of vermicompost Coconut fiber "coir" bedding block User's guide EliminatorTM review: by Kelly Slocum I received my Eliminator from the Happy D Ranch Worm Farm in July of this year. The unit was mailed completely intact and required no assembly; a fact that I appreciated greatly! The vermicompost collection tray and coir brick that came with it were packed neatly inside the unit and the worms were mailed separately once I had confirmed that I received the EliminatorTM. Even though the unit shipped to me was, by agreement with Happy D Ranch, a prototype, my first impression was very good. The unit stands tall enough that I need not stoop to feed, is an attractive natural, unfinished wood box built on galvanized steel legs, and is very sturdy. I've stood on it on more than one occasion to clean leaves from my gutters! There were no instructions with my unit as it was a prototype, but support from the folks at Happy D Ranch left me with no questions. I set the Eliminator on my patio in the shade of a holly tree and under the eaves on the east side of my house to protect it from our Pacific Northwest rains. The climate in this part of the US is very mild with summer temps rarely reaching above 90 °F and winter temps rarely dipping below 30 °F. As per instructions during a phone conversation with Happy D Ranch, I began the system using the standard practice for all continuous flow systems; several sheets of newspaper laid on top of the welded wire bin floor and covered with the dampened bedding, in this case the coir fiber supplied. Once my worms, 2 lbs. of Eisenia fetida, arrived I put them on the dampened coir bedding and covered the surface with roughly 1" of food scraps from my kitchen. This amounted to roughly 3 pounds (approximately 3 cups) of feedstock. I spread 2" of damp, shredded paper over the food waste and left the worms to explore their new home. I next fed the system five days later, when the worms were actively in the previously added feedstock, by again layering 1-2" of food scraps with 1-2" of shredded paper. I was able to feed the system roughly three cups of feedstock every five days for the first couple of weeks, then activity levels began to increase dramatically. After 20 days I was feeding three cups of feedstock every three days and, by the time I had been managing the system for 6 weeks, was feeding three cups of feedstock every other day consistently. My Eliminator was filled to within a few inches of the top of the unit in roughly ten weeks, at which time I began harvesting each time I added new feedstock. The first time I pulled the harvesting bar to release the castings I found it a bit difficult to move. I had to brace against the side of the bin to get enough leverage to tug it out. Once the bar was released with that first pull, however, I had no problem moving it back and forth several times. I harvested until I had about 2" of vermicompost in the collection tray beneath the welded wire floor and was pleased to find no worms and no recognizable organic material in the vermicompost. I also noticed that the working column of material in the bin had not shifted down to rest on the welded wire, but by the next morning the contents had settled and the bin contents were once again in contact with the wire floor. Subsequent harvestings did produce a few worms coming from the bottom of the unit with the finished material, but their numbers were so few that they were easily picked out in a moment or two or simply left in the material. I found no cocoons in any of the vermicompost I harvested from my Eliminator. I like this unit very much! I find it attractive and simple to manage and harvest. For beginners to veterans, this unit is a winner! Last Updated ( Sunday, 02 October 2005 )   < Prev   Next > [ Back ]