Fibreglass Ponds. Our ranges of pond sizes allow even those people with small gardens and limited spaces the options of having a pond in their garden. Granite Transformations FAQ sections offers complete informations on granite worktops, kitchen worktops, granite kitchen worktops, kitchen doors, bathrooms, glass. Considering whether or not a water meter is right for you? Here is some information on water meters to help you make up your mind. Which Solar Panel Type is Best? Mono- , Polycrystalline or Thin Film? Your details have been received and are currently being processed. You will be contacted by up to three, independent, trusted solar system suppliers shortly (usually within 4. Congratulations on taking the first step towards a rewarding green investment! Archimedes Screw Generators - Green. Bug Energy. Archimedes Screw History – Traditional use of the screw has been as a pump. To reclaim land as with this windmill pump in Holland. To irrigate land – past and present day. To pump sewage. To pump fish in the aquaculture industry. The Archimedes Screw as a generator – Technology Overview. At least 4. 00 Archimedes screw generators (ASGs) have already been installed in Europe since 1. Lashofer et al., 2. Europe. Green. Bug connected the first ASG to the North American power grid in September, 2. Waterford, Ontario. Simple, robust, reliable, few parts. Doesn’t require fine intake screening for debris as it passes all but the largest of debris, making it less maintenance with little to no trash rack cleaning. There is a course intake grate to keep out the very large debris and for safety purposes. Simple weight of the water turns the screw, which turns the gearbox which turns the generator. For example, there is approx. Fletcher screw at any one time. The diameter is increased to accommodate larger flows. The length is increased to accommodate larger heads. The screw needs 1 meter of head as a minimum, and can go up to 1. The screw is classified as a lower head, higher flow technology but the effective higher flow is going to be limited to the diameter of screw that can be transported down the road without incurring special costs for excess height, which is about 4 meters in diameter, thereby limiting the upper flow range of a single screw to around six and a half cubic meters per second approximately. Beyond this a second screw would have to be used to accommodate more flow or extra transportation costs incurred. ASGs have greatest potential at low head sites (less than about 5 meters of head), and unlike conventional reaction or impulse turbines, have the potential for maintaining high efficiencies even as the head approaches zero. Each screw is custom made for the watercourse flow and head and this is easily done. Manufacture of the screw takes about a week. The generator is an off the shelf gear- motor that industry would use so it’s robust and proven. Our grid tied screws are “Asynchronous induction Generators”, and we can connect to either 3 phase or single phase depending on the service available. Grid tied screws can be used either in a FIT connection or Net metering connection as Fletchers is. We now have 2 different “Off grid” or stand- alone systems for remote areas. How the screw can be used at existing water control structures. Our preference is to install beside the main existing water control concrete structure and not install on it because while installation on an existing weir is possible, it raises engineering questions about the weir/dam structure itself and there is also the issue about potentially decreasing the flood flow capacity of the weir structure which has to be studied. We prefer to bypass these extra costs because micro hydro does not have the scale to withstand these types of costs. Usage and refurbishment of existing channels and intakes is possible to reduce site disruption and civil construction as it was at the Fletcher site. We utilized the old existing turbine intake and refurbished it, cleaned out the old channel and simply added an addition on the end. In this case we did not utilize the old mill tail race, but instead turned the screw 9. All the work on the addition was done on dry ground, and when completed the earth between the screw exit and the watercourse was removed. Cold weather performance of the Archimedes Screw System. While the top surface of the water may freeze, the water always flows, and to prevent icing of the screw as it rotates we have a simple air seal arrangement at the intake and at the water exit. At the entrance is a simple concrete slab that extends just below the water and at the water exit, stop logs do the same thing. This prevents cold air from entering the screw chamber and generator room. With the thermal mass of the water and the small amount of heat emitted from the generator, the generator room stays just above freezing without any external heat source. The Fletcher installation worked throughout one of the coldest winters in Ontario history with no icing issues (2. Our thermal modelling will tell us when we need to provide additional insulation in the generator room. As installations get larger the generator size relative to the generator room tends to increase therefore freezing is less of a concern, and venting in the summer is a larger issue. Small 5. 00 Watt capacity Archimedes Screw generator of the Open Complete model type sitting on small weir spillway. Technical issues that make the Archimedes Screw generator environmentally attractive. Bottom draw capable – design of the intake can accommodate bottom draw of flow. Lower bearing – is a proprietary water lubricated composite or a proprietary submersible roller bearing assembly that is not grease fed. The lower submersible bearing in the screw at Fletchers is a simple water lubricated composite bearing. Upper bearing – is a simple bearing with an auto lubrication device attached to grease it occasionally, but there is nothing to spill and this bearing is out of the water. Upper gear box – contains food grade oil. While the gearbox isn’t near the water, the food grade oil is an extra precaution we take. The protective coating on the screw is a two part epoxy which after application and hardening the coating is chemically inert. Slow tip speed – The reason that rpm decreases as screw diameter increases is to keep the tip speed (the outer edge of the flighting) safe for fish. We follow the UK Environment agency’s guidelines that have been developed over several hundred installations and studies. Compressible Rubber bumpers – as additional fish protection, we install rubber bumpers on the leading edge of the flighting so that it absorbs any impact with a fish entering the screw. We use compressible rubber bumpers as standard practice. Acts like an elevator not a blender – The screw acts like an elevator for the water than enters, not a blender. As the screw turns, each flight takes a huge “bucket” of water that is then trapped between successive flights. The water in this bucket remains relatively stationary in the bottom of the screw as the screw turns. Therefore any fish that do enter get lowered from top to bottom with the water. This can be seen in the diagram below. Big water buckets – The “water bucket” or space between any two steel fights on the screw is very large. The chamber of water available for fish while being lowered is very large. This can be seen in the examples diagram below. Absence of extreme pressures or shear stress associated with more conventional high head turbines – The Archimedes screw does not work based on the same water pressure concept as do traditional turbines, there is no increased water pressure or high rpms associated with water moving through the screw as there is with traditional turbines. In one of the studies the effects of turbulence and shear stress on fish orientation within the screw compartments was assessed using camera footage of fish passing down the screw. No adverse effects were observed and this was deemed to show that the startle response of fish would not be affected by passage down the screw. The result of all of the above is safe downstream fish passage. In another study In order to assess attraction of adult salmonds to the outflow, underwater cameras were positioned to record fish approaching the outflow. Twenty- five fish were seen by the cameras, spending an average of 8 minutes in the outflow area. No fish were seen attempting to jump up the screw. True run of river – the screw only takes water that would have otherwise went over the weir to generate electricity. Flows beyond the screw capacity, continue to flow over the weir. If at any time the screws flow capacity exceeds the watercourse flow, this is when the sluice gate can become active to restrict flow to the screw to maintain the target water level at the weir. Increases dam maintenance by having parties with a vested interest in the Dam structures. Increases flood flow capacity of the site – when installed off to the side of the main weir structure, the screw adds to the flood flow capacity of the site. Does not have to affect the water levels above or below the water control structure – we say it doesn’t “have to”, but we can if this is desired for some environmental reason. For instance. While the sluice gate on the screw intake can be used to maintain a target water level at the weir to ensure a true run of river system, this could be changed to allow the screw to lower water levels below the weir crest by a certain amount if desired. This would no longer be true run of river, but may be desirable in some situations such as a planned draw down of water levels to allow for flood flows. Hopefully screw installations reduce other forms of generation that are non- renewable. Many low head dams are near or in small communities due to historical origins allowing energy production where it is used and connection to distribution lines with no need for transmission lines. Studies available. Fish Monitoring and Live Fish Trials – Phase 1. Fish Monitoring and Live Fish Trials – Phase 2. Fish Monitoring and Live Fish Trials – Phase 3. Archimedes Screw Risk Assessment – strike and delay probabilities. Archimedes Screw Leading Edge Risk Assessment. Size Relationships of the Archimedes Screw. Meter= 1. 00. 0 liters= 2. U. S. Gallons. Economics. One of the biggest economic challenges relates to the fixed and semi- fixed soft costs and processes of development. They put a disproportionate burden on small projects. Site assessment costs, civil and geo- technical engineering costs, approval related costs, electrical engineering and connection assessment related costs. These costs wouldn’t vary much for either a 7. W site like Fletchers or for a 1.
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