User Manual - JG Technologies
Contents
1. Edge LE 300 Turbine Installation amp Operation Guide 1m Diameter Micro Wind Turbine for generating clean and renewable electricity anywhere the wind blows Leading Edge Turbines Ltd Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 1 of 38 Leading Edge Contents Content Srce d n ERN sacs tee NEM MEMINI MEE ME 2 NANI TG EN ET 3 Safety od 4 Mechanical Safety 4 Electrical Safety rrjs m r 4 5 E cO NS EE 5 Tools Required For 2352 4 5 d co no 6 Mechanical Assembly lt 7 Electrical e Mtt 12 Fig 12 Typical Stand Alone Battery Charging Wiring Diagram 14 Fig 13 Typical Hybrid Wind PV System Wiring 15 Fig 14 Typical Grid Tie System Wiring Diagram esee 16 Turis ODSPAION 17 NEE EDITE 19 Post Installation Checks to be carried out one month after installation 19 Annual EEO MIENNE i n EE 19 Alter Five years or normal operation 19 Other Con2. B Leading Edge Turbine Site Selection The turbine location is a very important factor in the overall performance of your small wind turbine system Good site selection will maximise the power that your turbine will be able to deliver Installing a wind turbine in a bad position is similar to installing a solar panel system in the shade it will not maximise the performance of your investment The total amount of energy available in the wind increases drastically with small increases in wind speed Therefore it is very important that you site your turbine in the best possible location The proposed installation site for your wind turbine must have a good average wind speed of a minimum of 4 0m s 9mph and low wind turbulence Wind turbulence is caused by obstructions to the wind such as trees and buildings Excessive turbulence will hamper the performance of your turbine Small wind turbines operate best in steady airflows Free flowing airstreams are more consistent in direction and wind speed which results in more overall power being generated by the wind turbine system Gusty conditions often result in a turbine hunting the wind reducing the amount of overall power generated Gusty and turbulent conditions also exert fluctuating forces upon the turbine that can reduce the reliability and lifespan of the system Wind shadowing and barriers Wind barriers are simply obstacles that impede the flow of the wind such as trees and buildi
3. Whilst operating below this speed the turbine will be off load and freewheeling Once the turbine output voltage becomes equal to the nominal battery voltage at around 350 RPM the turbine will come on load and begin to deliver current to the batteries During the off load stages of rotation the rotor blades rotate very freely This allows the rotor to build up speed and allows aerodynamic lift to be generated by the blades e Normal Operation Once the rotor is spinning at 350 RPM current will be delivered to the batteries As the rotor speed increases so too will the current and voltage Excessive wind speed may increase the battery voltage to a high level Once this happens the diversion charge controller will recognise that the battery voltage is too high and begin dumping power to the heater module e Charge Regulation Once the charge controller has switched over to the dump load the turbine will no longer be charging the batteries Instead the power from the turbine will be delivered to the dump load usually a resistive heater element The battery voltage will begin to drop to normal levels during the regulation period Once the battery voltage is back within acceptable limits the charge controller will switch the turbine output back to the batteries Refer to the charge controller user manual for specific operational instructions e Shut Down By activating the stop switch the output from cables of the turbine are
4. shorted together This effectively puts an infinite load on the generator causing the turbine to stall When the stop switch is activated the turbine may still rotate slowly during high winds but the rotor blades will not be able to build up any significant speed It is not recommended that the stop switch is activated whilst the rotor is spinning at high speed This sudden braking action will stress the blades and other components Only activate the stop switch during a lull when the rotor is not spinning excessively fast Warning Protection of your turbine in strong winds 40 mph In certain strong wind conditions the rotor can overpower the electromagnetic braking which allows high currents to be produced in the stator coils If this situation occurs for prolonged periods damage to the turbine can occur Therefore the braking switch should only be used to slow the unit prior to manually mechanically tethering the turbine in very high winds Either restrain the blades or swing the turbine to 90 degrees away from the wind and tether it in this position High Winds Every effort has been taken to ensure that the LE 300 will withstand the forces exerted by strong winds However the raw power in high winds is immense and the stresses placed upon the turbine are magnified by gusty and turbulent conditions Where possible the turbine should be shut down and tethered in advance of particularly strong consistent winds 60 MPH and sto
5. wasting energy and reduce the mechanical integrity of the joint Where possible use a fluxed solder to make electrical joints e Protect the cables The power transmission cables must be protected from mechanical damage and fatigue Run the cables through an approved conduit trunking e Cable strain relief Prevent mechanical strain on the transmission cables running down the tower from the turbine Clip the cables to the inside of the tower Failure to do this will result in excessive mechanical strain on the cable joints within the slip ring assembly and may cause a failure Cable ties or cable glands are a good way to prevent mechanical strain on the cables e Earth the System The turbine tower should have its own separate earth point negative terminal of the battery bank should also be earthed This provides protection against the build up of static and lightning strikes The tower should be earthed separately with its own ground rod if there is a long transmission distance between the tower and batteries An appropriate surge arrestor could also be used to help prevent damage to the battery charging system during a lightning strike Ensure that the earth cables are of the same rating as the positive and negative cables e Cable Selection The cable size table should be used to select the minimum sized cable for a given transmission distance Voltage drop in the cable will be improved if a larger cable is used We
6. Qty 1 9x x16 Cap Heads 11x M6 Nuts amp Washers 23x M6 Washers 2x M6x65 Bolts 3x 5 12 Cap Heads 3x 5 20 Cap Heads 1x Yaw mount shim Nose Cone Qty 1 User Manual Qty 1 Fixings Bag Qty 1 Tools Required For Assembly You will require the following tools to assemble your LE 300 turbine 10 mm A F spanner amp 10 mm ratchet one of each required 8 mm A F spanner or ratchet A set of Metric Standard Hexagon Keys Electrical screw drivers Power drill 6 5 mm diameter twist drill bit suitable for drilling through steel Digital multi meter capable of measuring DC Volts Tape measure or steel rule Thread locking compound e g Loctite Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 6 of 38 Leading Edge Mechanical Assembly Procedure 1 2 Unpacking Inspect the contents of the box and ensure that all items are present and free from damage If any of the components are missing or damaged please contact your dealer immediately Check Magnet Rotor amp Continuity Ensure that the main shaft is free turning and does not scrape or rub as it rotates see Fig 4 You may feel a slight resistance from the bearings at this stage The bearing units used in the magnet rotor assembly are factory lubricated and sealed for life It will take approximately 100 hours of normal operation for the seals to bed in and the lubrication to be distributed correctly arou
7. an internal wiring fault which has resulted in a broken circuit In this situation the turbine is free spinning but no voltage will be measureable at the turbine output cables If an internal fault is present please contact your dealer or Leading Edge turbines for further advice Issue The rotor hub plate fixings do not correctly grip the rotor hub plate which means that the rotor hub plate can rattle slightly Potential Causes rotor hub fixings have been positioned incorrectly in the drive bearing hub Remove the fixings and replace them in the next hole over This should allow the fixings to be completely tightened meaning that the rotor hub plate will be correctly installed Issue A slight oscillation can be observed in the turbine tail fin whilst the turbine is rotating at certain speeds Potential Causes e Due to the nature of small wind turbines a small level of oscillation is acceptable as the turbine passes through certain speeds This oscillation movement can be minimised by ensuring that the distance between each tip is within tolerance please see step 4 page 8 Also ensure that the assembled rotor is correctly and concentrically fitted to the drive bearing housing Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 33 of 38 Leading Edge Issue The turbine comes frequently comes to rest in the same horizontal position regardless of which direction the wind is
8. coming from Potential Causes e Turbines require that their towers are vertical Although the LE 300 is fitted with counterweights to compensate for the pitching and rolling of a yacht it is still recommended in all applications that the turbine tower is set to be perfectly vertical The LE 300 is designed to be slightly tail heavy so that when it is fitted to a yacht that is healing in the wind the turbine will favour the windward side Issue The turbine never seems to reach its operating speed and does not give any or very little power output Potential Causes You may have installed a 24v turbine on a 12v battery system This means that the turbine will reach its cut in RPM prematurely and this in turn will stall the blades Ensure that you have the correct voltage turbine for your application Issue A slight oscillation can be observed in the turbine tail fin whilst the turbine is rotating at certain speeds Potential Causes e Due to the nature of small wind turbines a small level of oscillation is acceptable as the turbine passes through certain speeds This oscillation movement can be minimised by ensuring that the distance between each tip is within tolerance please see step 4 page 8 Also ensure that the assembled rotor is correctly and concentrically fitted to the drive bearing housing Issue When fitted to a yacht vibration is transmitted through to the hull of the vessel Potential Causes e Small wind turbi
9. fitted to the LE 300 chassis This is done by offering the rotor hub plate against the drive shaft protruding from the front of the chassis M5 x 20 long cap head screws should then be used to fix the rotor hub in position using the three unused tapped holes in the drive shaft Ensure that all three screws are securely tightened and that the rotor blades are fitted with the flat side of the blade facing forwards Thread locking compound should be used on the screw threads Fig 7 Fitting the rotor blades to the chassis 6 Check the blade rotation Once the blades have been fitted and secured to the chassis ensure that they rotate freely Take this opportunity to check that all of the blade and hub fixings are secure see Fig 8 Fig 8 Check blade rotation Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 9 of 38 amp Leading Edge 7 Fit the nose cone The nose cone can now be fitted to the rotor This is done by aligning the three mounting holes of the nose cone with those on the rotor hub plate Use three M5 x 12 long screws to secure the nose cone in position see Fig 9 Fig 9 Attach the nose cone 8 Prepare the Turbine Mount If you have purchased a LE 300 mount bracket or tower from a Leading Edge Turbines dealer then please refer to the separate installation instructions supplied with the product If you have sourced your own tower mount bracket 6 5
10. mm diameter holes will need to be drilled in order to secure the turbine These holes should be drilled 10 mm amp 25 mm from the top of the tower mount bracket and should be perpendicular to the surface and skewed by 90 degrees The hole should penetrate both sides and cross the centre line of the tubular section see Fig 10 1 902 548 30 984 25 00 7 00 THRO Nea HOLES DRILL Fig 10 Drill through top of tower mount bracket Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 10 of 38 Leading Edge 9 Install the Transmission Cables When your tower or mount bracket is ready to receive its turbine the next stage is to run the cables from the top of the tower to where the electrical controller and batteries grid tie inverter will be located Follow the table below to select the correct wire size cross sectional area This will vary depending on your nominal battery voltage and the distance that the cables will be run Careful selection of the cable size is required It will not only affect the safety of the system but also the overall efficiency A cable of insufficient cable size will cause a voltage drop wasting the power that has been generated The cable sizes listed below have been selected with efficiency and cost in mind as it is unlikely that your turbine will be running at full capacity 10096 of the time If in doubt consult your l
11. other equipment to the electrical system The LE 2000 generates high voltage AC and the Universal Run Stop Switch also operates at these voltages At these high voltages there are significant risks Caution should always be used when connecting an LE 2000 or other equipment to the electrical system Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 30 of 38 Leading Edge Ensure that you have followed the cable sizing guidelines to ensure that the correct size of cable has been selected If a cable of insufficient cross sectional area is used at any point in the electrical system heat will build up in the cables causing a potential fire hazard A properly sized fuse or circuit breaker should be used in the cables connected to the battery This will stop the risk of short circuit currents Batteries used in renewable energy systems can deliver a serious amount of current A short circuit in the battery circuit can lead to hundreds of Amps flowing through the battery cables This will cause a heat build up and ultimately an electrical fire Batteries are also susceptible to exploding when shorted Always use insulated electrical tools when working on the battery s electrical connections Batteries are very heavy Do not attempt to move batteries by yourself Always use manual handling tools and an assistant Always keep lead acid batteries the correct way up Do not allow the acidic electrolyte to sp
12. stop the risk of short circuit currents Batteries used in renewable energy systems can deliver a serious amount of current A short circuit in the battery circuit can lead to hundreds of Amps flowing through the battery cables This will cause a heat build up and ultimately an electrical fire Batteries are also susceptible to explode when shorted Always use insulated electrical tools when working on the battery s electrical connections Batteries are very heavy Do not attempt to move batteries by yourself Always use manual handling tools and an assistant Always keep lead acid batteries the correct way up Do not allow the acidic electrolyte to spill or come into contact with your skin or face Always follow the manufacturer s safety instructions when handling lead acid batteries Please use common sense when installing and operating your turbine and LE DL 300 Charge Controller Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 25 of 38 Leading Edge Electrical Installation Please refer to electrical schematic for appropriate generic wiring diagrams In a battery charging renewable energy system there may be different ways of wiring small wind turbines photovoltaic panels charge controllers and batteries together This type of system will often expand organically but the following guidelines should be followed Location The LE DL 300 controller should be mounted in an
13. the turbine operates reliably and safely with good efficiency Always shut down the turbine before attempting to carry out maintenance Post Installation Checks to be carried out one month after installation e Check that the tower mount pins are secure and has not worked loose Adjust if required e Ensure that the rotor hub is still securely fitted e Ensure that the rotor blades rotate freely e Monitor the output Ensure that the turbine and charge controller are functioning correctly Annual Maintenance e Inspect the tower support structure e Remove the turbine from its installation to a suitable workbench e Remove the rotor blade assembly e Inspect the edges of the rotor blades for damage such as dents or chips The blades will become unbalanced if they are damaged This will cause vibration noise and poor performance If many dents have occurred along the edges of the blades a new set of rotor blades should be fitted part numbers available in the Spares section e Inspect the roots of the blades attachment tabs for signs of stress cracking or fatigue A new set of rotor blades should be fitted if any cracks of fractures have occurred part numbers available in the Spares section e Remove any build up of dirt and debris from the rotor blades using a mild detergent and warm water e Check the blade hub fixings for tightness e Carefully remove the yaw mount bracket by unscrewing the four connection screws from the
14. this guide and local codes Failure to do so will result in this warranty becoming null and void Any unauthorised modifications to the turbine design will void the warranty and may compromise the safety of the machine What is not covered by your warranty e Damage caused by the neglect of periodic maintenance the manner recommended Damage caused by repair or maintenance performed using methods not specified by Leading Edge Turbines or by non authorised dealers of Leading Edge Turbines products Damaged caused by the use of non genuine parts or from the use of liquid agents or lubricants in or on the turbine tower or control equipment e Damage caused by operating the turbine in conditions outside of those specified in the Owners Guide including but not limited to allowing the turbine to run off load e Damage caused by modifications to the turbine tower or control equipment not approved by Leading Edge Turbines e Damage caused to the turbine tower and control equipment by improper storage or transport Damage caused by lightning strikes Damage due to extremely high winds and storm conditions 60 mph Damage caused by flying debris Aesthetic phenomena that do not affect performance Damage caused by unsatisfactory installation of the turbine tower and or control equipment Damage caused by unsatisfactory tower support structure design e Damage caused by incorrect connection to external electrical e
15. turbine by activating the stop switch Electrical Safety Hazards e The LE 300 generates rectified DC voltage Even at these low voltages there are inherent risks Caution should always be used when connecting the LE 300 to the electrical system e Ensure that you have followed the cable sizing chart to ensure that the correct size of transmission cable has been selected If a cable of insufficient cross sectional area is used heat may build up in the cables causing a potential fire hazard A properly sized fuse or circuit breaker should be used in the cables connected to the battery This will stop the risk of short circuit currents Using cables of insufficient cross sectional area may also reduce the power transmission efficiency of the turbine e Battery systems can deliver a serious amount of current A short circuit in the battery circuit can lead to hundreds of amps flowing through the battery cables This will cause a heat build up and ultimately an electrical fire Batteries can explode when shorted Always use insulated electrical tools when working on the battery s electrical connections Batteries are very heavy Do not attempt to move batteries by yourself Always use manual handling tools and an assistant Always keep lead acid batteries the correct way up Do not allow the acidic electrolyte to spill or come into contact with your skin or face Always follow the manufacturer s safety instructions when handling lead acid batterie
16. BATTERY DISCONNECT CHASSIS GROUND OPTIONAL Nd Eod X I _ n di BATTERY BANK S WIRED APPROPRIATE CAPACITY amp VOLTAGE r r CECCECC 999999 LE DL 300 CONTROLLER REQUIRED PN GA CTRL 001A SEE LE DL 300 USER MANUAL FOR DETAILED INSTRUCTIONS Fig 12 Typical Stand Alone battery charging wiring diagram Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 14 of 38 Leading Edge LE 300 j PV TURBINE y PANEL PN GA LETU 007 ARRAY gt TOWER OR SUPPORT STRUCTURE EARTH GROUND RUN STOP 10 PERRA ton 241 SWITCH BOX e e DETAILED INSTRUCTIONS N PN GA CTRL 008A T A CM E 11 FUSE OR CHASSIS GROUND RECOMMENDED irt lg BATTERY DISCONNECT AMMETER P o OPTIONAL OPTIONAL i A J 1 FUSE OR BREAKER 1 1 RECOMMENDED 15001 NE BATTERY DISCONNECT CHASSIS GROUND OPTIONAL Lr X E M PV CHARGE nica ssp CONTROLLER V T 4 TN 1 BATTERY BANK p WIRED TO APPROPRIATE CAPACITY amp VOLTAGE E 7 s ae A 55566 299999 LE DL 300 CONTROLLER REQUIRED PN GA CTRL 001A SEE LE DL 300 USER MANUAL FOR DETAILED INSTRUC
17. TIONS Fig 13 Typical Hybrid wind PV System wiring diagram Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 15 of 38 Leading Edge SUPPORT STRUCTURE RUN STOP SWITCH BOX REQUIRED PN GA CTRL 008A AMMETER OPTIONAL FUSE OR BREAKER RECOMMENDED BATTERY DISCONNECT OPTIONAL CHASSIS GROUND OVER VOLTAGE PROTECTION RECOMMENDED MASTERVOLT WINDMASTER 500 GRID TIE INVERTER LE 300 TURBINE PN GA LETU 007 EARTH GROUND a Silt eem SEE RUN STOP SWITCH USER MANUAL FOR 4 DETAILED INSTRUCTIONS N N M e M ee E T waar ar m CHASSIS GROUND E I E i 2 C 207 N N 1 Lbs sc uer OVER VOLTAGE PROTECTION 230VAC 50HZ GRID Fig 14 Typical Grid Tie system wiring diagram Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 16 of 38 Leading Edge The LE 300 turbine is based on a simple design for ease of installation and reliable operation You may notice the following behaviour during normal operation Turbine Operation Cut in The turbine will not begin to charge the batteries until the rotor is spinning at approximately 350 RPM
18. adequately ventilated area which is not exposed to direct moisture or spray The dump load elements become hot during normal operation and should not be covered or blocked Gel or Flooded Batteries n electrical jumper needs to be configured in order to make the controller more suitable for use with Flooded or Gel batteries A jumper supplied should be applied to pins labelled 2 2 when the LE DL 300 is to be used with flooded batteries When the LE DL 300 is to be used with Gel batteries no jumper should be applied to pins 2 2 In any circumstance no jumper should be applied to pins 2 1 Use the correct voltage controller A 12V DL300 controller should only be used on a 12V battery system A 24V DL300 controller should only be used on a 24V battery system Do not interchange Follow the appropriate electrical code The electrical wiring of your LE 300 turbine and associated electrical systems must be done in accordance with national and local electrical codes and regulations Do not connect the turbine or batteries during the installation Ensure that the turbine is not running or connected to the batteries during the installation or wiring process Connect the output cables of the turbine together to prevent the rotor from starting up Galvanic corrosion of electrical joints Try to avoid connections between dissimilar metals For example connecting copper and aluminium together will result in galvanic corrosion of the co
19. aracteristics 3 Phase Wild not exceeding 500 V amp 16 Wild DC not exceeding 150 V amp 10A Mechanically and electrically capable of dynamic braking Operation amp Specification The Universal Run Stop Switch should ideally be operated during low speeds as repeated use at high speeds may cause damage if the turbine head it was not designed to withstand repeated dynamic braking operations The switch has two positions Position 1 Turbine Stop position The turbine is dynamically braked and may be seen to rotate very slowly Position 2 Turbine Run position The turbine output is allowed to flow straight through the switch to the relevant output Safety Precautions Safety must always be your primary concern during the assembly installation and operation of your turbine and other associated equipment Always be aware of the risks involved with mechanical and electrical installation work If in doubt about any issue regarding your turbine system please seek further assistance before proceeding Mechanical Safety Hazards Whilst installing the Universal Run Stop Switch ensure that the turbine is suitable restrained and not allowed to operate during the installation Electrical Safety Hazards The LE 300 generates rectified DC voltage and the Universal Run Stop Switch also operates at these voltages Even at these low voltages there are inherent risks Caution should always be used when connecting the LE 300 or
20. as Hereford HR2 OBW UK www leturbines com Page 27 of 38 d Leading Edge LED Indicators e Standby Mode when first powered up o both LEDs blink simultaneously every 7 seconds e Charging Mode o bulk green blink long delay green blink o absorb green blink short delay green blink o float green solid o dumping red solid when duty cycle gt 0 Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 28 of 38 Leading Edge Appendix 2 Run Stop Switch User Manual Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 29 of 38 Leading Edge Introduction Please read this manual thoroughly before attempting to assemble install or operate your Universal Run Stop Switch This will assure optimum performance and safety The Universal Run Stop Switch is designed to allow the user to dynamically brake a LE 300 turbine or LE 2000 turbine at will This is achieved by disconnecting the power output of the turbine from the relevant load and diverting it to a short circuit which then applies the dynamic braking effect on the permanent magnet alternator of the turbine This will bring the turbine to a near stop for maintenance or to allow the turbine to ride out high winds and storms safely The Universal Run Stop Switch can be used with turbines of different manufacture as long as the relevant turbine has the following ch
21. ened Depending on the exact dimension of the tower it may be necessary to use the supplied shim plate to ensure that the turbine is a snug fit upon the tower Fig 11 Fitting the turbine onto the support structure Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 11 of 38 Leading Edge Electrical Installation Please refer to Figs 12 14 for appropriate generic wiring diagrams In a battery charging renewable energy system there may be different ways of wiring small wind turbines photovoltaic panels charge controllers and batteries together This type of system will often expand organically but the following guidelines should be followed Follow the appropriate electrical code The electrical wiring of your LE 300 turbine associated electrical systems must be done in accordance with national and local electrical codes and regulations e Do not connect the turbine or batteries during the installation Ensure that the turbine is not running or connected to the batteries during the installation or wiring process Connect the output cables of the turbine together to prevent the rotor from starting up e Galvanic corrosion of electrical joints Try to avoid connections between dissimilar metals For example connecting copper and aluminium together will result in galvanic corrosion of the connection This will increase the electrical resistance of the connection
22. ill or come into contact with your skin or face Always follow the manufacturer s safety instructions when handling lead acid batteries Ensure that the Universal Run Stop switch is correctly wired as per these instructions and wiring schematics Incorrect wiring may lead to a short circuit being placed across the batteries which can lead to fire or explosion Please use common sense when installing and operating your turbine and associated equipment Installation Please refer to electrical schematic for appropriate generic wiring diagrams The Universal Run Stop Switch can either be mounted in the enclosure box supplied which in turn can be mounted on an internal panel or the switch can be integrated into an existing panel If the unit is to be integrated into an existing panel a suitable cut out as detailed on the wiring diagram will need to be made Switch Wiring for LE 300 turbine 3 POLE CHANGEOVER SWITCH 3 2 5 RED 29 osos RED N e e e e e 1 c WILD DC 1 d BATTERIES OR CHARGE TURBINE 7 9 s CONTROL 2 5mme BLK 25 BLK 6 e e e e e 5 304 TERMINAL Va 304 TERMINAL Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 31 of 38 Leading Edge Appendix 3 System Trouble Shooting Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK
23. ine as newer batteries in good condition e Nominal battery voltages will vary widely For example a 12v battery system will operate between 11 5 15 0 volts When the turbine is operating at 100watts this will equate to 8 7amps whilst the batteries are at 11 5 volts but the same 100watts only equates to 6 66watts when the batteries are at 15 volts When using a current measuring device such as an ammeter the current reading must be qualified against the voltage reading in order to calculate an accurate power output e Measurement errors can easily occur whilst measuring both the wind and power output of the turbine For example in marine applications the wind speed measurement is often made at the top of the mast which will be approximately 10m above the height of the wind turbine The measured wind speeds at this height will be much higher than the wind speeds that the turbine experiences This may lead to the assumption that the turbine is underperforming in any given wind speed Furthermore current shunts are often used in low voltage DC systems due to the amount of currents flowing Ensure that high quality shunts are employed for accurate current readings Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 35 of 38 d Leading Edge Appendix 4 Turbine Site Selection Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 36 of 38
24. ll all create eddy currents in the wind which will severely reduce the turbines efficiency Generally the turbine should be positioned on a tower as high as possible above any local features of the topography e Ensure that the correct minimum and maximum cable sizes have been installed see section 9 page 11 of this user manual Using a cable that is too small may lead to volt drop losses especially on a 12v system Alternatively using a cable that is large than the recommended size may lead to the turbine becoming stalled or semi stalled which will impair performance During operation the turbine alternator will become warm and even hot especially during high wind events When this happens the resistance in the alternator coils dramatically increases which causes the alternator efficiency to drop drastically This effects the overall output of the turbine Performance will drop after the turbine has heated up due to prolonged high end running e Different battery technologies have different rates at which they can absorb power from a wind turbine The batteries will draw all of the power possible from a wind turbine until they reach their absorption limit Generally more battery capacity can be added to increase the rate at which they can absorb power Battery age and condition will also affect the rate at which the batteries can absorb power Older batteries or those in a poor condition will not draw the same power levels from the turb
25. nd the bearing raceways and ball cages During this period you may notice a reduced performance caused by the additional friction of the bearing seals In operating temperatures of 10 degrees Centigrade or lower this bedding in period will be extended by a further 50 hours of normal operation Connect a digital multi meter to the positive red and negative black output leads extending from the yaw pivot With the multi meter set to detect DC Volts 0 20V a voltage should be displayed when the magnet rotor is spun This voltage will vary with the speed of rotation If the magnet rotor rubs or no voltage is detected whilst turning the magnet rotor please contact your dealer immediately Warning The magnet rotor within your LE 300 turbine is constructed using neodymium iron boron rare earth magnets These are extremely powerful magnets and can cause injury if not handled with respect Take care when working with tools made of ferrous materials such as spanners and screwdrivers close to the LE 300 alternator The magnetic forces between ferrous materials and the magnet rotor within the alternator maybe very strong This may cause a sudden snapping action that can pinch or trap your fingers or skin Fig 4 Checking magnet rotor rotation and coil disc continuity Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 7 of 38 d Leading Edge 3 Rotor Blade Assembly Take the three rot
26. nes are an electro mechanical device and as a result a small amount of hum can be present during the operation of the LE 300 Depending on the type and method of mounting to a yacht some of the natural hum of the turbine alternator can be transmitted to the hull of the vessel In order to limit or avoid this vibration transmission it is recommended that appropriate anti vibration mountings and bushes are used upon the structure used to support the turbine Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 34 of 38 Leading Edge Common Problems pertaining to low turbine output Issue The turbine seems to be operating correctly but the electrical output appears to be low There are many reasons why the turbine may be demonstrating outputs that are lower than anticipated These reasons can stem from turbulence erroneous measurements through to battery type and condition Potential Causes e Turbulence is the most common reason why turbines do not perform to their specification Turbines require clean un turbulent laminar air flows in order to operate at their peak performances This means that turbines need to be carefully sited in order to avoid areas of turbulence Unfortunately this is not always possible and compromises need to be made Please see Appendix 4 for information about siting your turbine for best performance Turbulence created by trees structures and general topography wi
27. ngs A large wake of turbulent airflow will occur for a long distance downwind of a barrier It is not desirable to locate a turbine in this zone WIND DIRECTION M TURBULENT AIRFLOW ZONE OBSTRUCTIONS 2XHEIGHT 2 X HEIGHT 20 X HEIGHT Topography For areas of undulating ground the turbine should be installed in the highest possible position avoiding wind barriers and turbulence For areas that are generally flat the turbine can be installed in any position Remember that the LE300 has a low voltage output so it is important to keep the cable run to the batteries inverter as short as possible Surface roughness of the ground Long grass crops or bushes will have the effect of slowing the wind down even at the height of the tower Try to install your turbine where the ground is smooth to increase the overall power production of the system Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 37 of 38 4 Leading Edge w Contact Us Your Local Distributor Leading Edge Turbines Ltd Skyrrid Farm Pontrilas Hereford HR2 OBW UK UK 0 845 652 0396 Outside UK 44 1981 241 668 info leturbines com www leturbines com
28. nnection This will increase the electrical resistance of the connection wasting energy and reduce the mechanical integrity of the joint Where possible use a fluxed solder to make electrical joints Protect the cables The power transmission cables must be protected from mechanical damage and fatigue Run the cables through an approved conduit trunking Cable strain relief Prevent mechanical strain on all cables Cable ties or cable glands are a good way to prevent mechanical strain on the cables Fuses The LE DL 300 controller should be protected with a suitably rated slow blow DC fuse or DC circuit breaker Please refer to the table below for the correct rating The fuse or breaker should be positioned between the DL300 and batteries on the positive cable Nominal Voltage DC Fuse DC Circuit Breaker Rating 12V 30 Amp 24V 15 Amp Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 26 of 38 KE Leading Edge Electrical Connections of DL300 Controller J2 1 DL 300 Voltage Set Points Whilst operating the DL 300 does a multi stage charge based on time and the bulk and float voltages 12V Setpoints Mode Flooded Sealed Bulk 14 6 14 3 Float 13 4 13 4 Protect 16 0 15 0 24V Setpoints Mode Flooded Sealed Bulk 29 2 28 6 Float 26 8 26 8 Protect 32 0 30 0 Tel 44 0 845 652 0396 Skyrrid Farm Pontril
29. ocal electrical supplier The cable should be installed in accordance with local electrical regulations and guidelines If in doubt use a local electrical contractor to complete the cable installation Warning If a cable of insufficient cross sectional area is used heat will build up in the cables causing a potential fire hazard Cable capacities quoted below are based upon Tri Rated cables BS6231 Transmission Distance LE 300 Nominal Output 10 Metres 30 Metres 100 Metres Voltage 30 Feet 90 Feet 300 Feet 12 Volts 6 mm 10 mm Not Recommended 24 Volts amp Grid tie 1 5 mm 6 mm 16 mm 10 Mount the LE300 Turbine onto the Support Structure Ensure that the previously installed power transmission cables are not yet connected to any batteries and are shorted together This will prevent the turbine from operating during the installation process Once this has been done connect the turbine output cables to the transmission cables using a connecter supplied by Leading Edge Turbines supplied separately or a suitable terminal block with a minimum rating of 30 Amps Offer the turbine up to the support structure and push the turbine body onto the tower Ensure that no cables are snagged Use the M6 x 65 set screws along with two washers and an anti vibration nut to secure the turbine using the holes previously drilled and the hole in the yaw pivot see Fig 11 Ensure that M6 set screws are securely fast
30. or blades and rotor hub plate Be careful when handling the blades they may have sharp edges Use a 10 mm A F socket amp hexagon key and three M6 x 16 mm long cap screws to attach each blade to the hub plate see Fig 5 Ensure that the cap head end of the screw is on the rotor hub plate side thus allowing the washers and nuts to locate inside of the blades The blades should all be fixed to the hub plate on the same side with the blades in the same orientation It is important that a washer is used underneath the anti vibration nuts Three set screws three washers and three anti vibration nuts should be used on each blade Tighten the fixings until the blades are safely secured Do not over tighten the nuts as this may damage the blades and fixings Fig 5 Attaching the 3 rotor blades to the hub plate 4 Check the Tip Spacing Although the turbine blades are fitted with location keyways it is important to check the tip spacing Lay the assembled rotor blade on a flat surface Using a tape measure or long steel rule ensure that the spacing between each tip is equal to within a tolerance of 1 5 mm Adjust the blades as required Output performance may suffer if the blades are inaccurately set see Fig 6 Fig 6 Checking tip spacing Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 8 of 38 Leading Edge 5 Fitthe Rotor Blade Assembly The assembled rotor blades can now be
31. p switch Ensure that the turbine is installed in a suitable position where nobody can approach or interfere with the path of the rotor blades e Working with tools of any kind can be dangerous Your LE 300 turbine requires some basic mechanical assembly with rudimentary hand tools If you are in any doubt about how to use these tools correctly please seek advice from a suitably experienced person e Your LE 300 turbine will inevitably be installed upon a tower or other support mount This may mean working at height Always ensure that all personnel in the immediate vicinity are aware of any lifting hoisting operations that will be occurring Check there are no loose components or tools likely to fall and cause injury during the lifting operation Where possible all assembly work should be completed at ground level In the case of roof mount brackets a suitable fitter should carry out the installation with the appropriate equipment for working at height Ensure that the batteries are disconnected during the installation procedure e Twist the turbine output cables together to create a short circuit during the mechanical installation process This will prevent the turbine from spinning up during the installation e Never install the turbine upside down or in any orientation other than that depicted on the installation instructions e Install your turbine during a calm day When performing routine inspection or maintenance always stop the
32. quipment or failure to observe current regulations concerning connection to external electrical networks equipment or any other devices If you should experience a problem with your turbine your first port of call should be the reseller or installer from whom you purchased the product They will be able to resolve the problem quickly and efficiently If you are unable to contact the original reseller then please contact us directly Please quote the serial number of your turbine when dealing with warranty issues The serial number can be found on the nameplate positioned on the underside of the chassis Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 21 of 38 Leading Edge Disclaimer All specifications are subject to change without prior notice e information given in this user manual is believed to be accurate and reliable Leading Edge Turbines assumes no responsibility for omissions or inaccuracies e user of this information and product assumes full responsibility and risk LE 300 turbine is a source of electrical power It must be installed in accordance with local building and electrical regulations Consult your local planning zoning office for details e The LE 300 turbine has moving parts that may cause injury due to poor installation and unsafe operation Leading Edge Turbines assumes no responsibility for problems caused by unsafe or unsati
33. recommend using Tri Rated cable as it should comply with the wiring codes for your area e Fuses The turbine and charging circuit should be protected with a suitably rated slow blow DC fuse or DC circuit breaker Please refer to the table below for the correct rating The fuse or breaker should be positioned between the turbine and batteries on the positive cable If a stop switch is used recommended the fuse should be positioned between the switch and the batteries LE 300 Nominal DC Fuse DC Circuit Breaker Rating Output Voltage 12V 25 Amp 24V amp Grid tie 13 Amp Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 12 of 38 Leading Edge e Run Stop Switch A simple switch arrangement can provide a safe and easy way of stopping the turbine during high winds or for maintenance Leading Edge Turbines can supply a switch which is best for this purpose As the switch is thrown the batteries are disconnected and the turbine is shorted reducing the rotor to a slow rotation Refer to the generic wiring diagrams e Charge Controllers A LE DL 300 Diversion Charge Controller is recommended to manage the power output from the turbine to the batteries This Diversion Charge Controller operates by increasingly switching output to a dump load once the batteries begin to reach high voltages The dump load consumes the excess power from the turbine Thi
34. rm conditions This will decrease the wear and tear on the machine and will help to avoid a failure Protect the turbine from extreme winds as you would protect other items of your property Refer to the Shut Down procedure above Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 17 of 38 d Leading Edge Grid tie Applications When connected to a grid tie inverter the LE 300 will operate in much the same manner as when it is charging batteries except for the use of dump loads It is important that the Grid tie inverter characteristics are matched to the power curve of the turbine to ensure optimum performance An appropriate electrical interface may also be required depending on the inverter equipment being used It is generally only recommended that Leading Edge Turbines approved and programmed inverters be used with the LE 300 Refer to your Leading Edge Turbines dealer for more information on this Note Never allow the turbine to run off load with no connection to a battery bank or grid tie inverter Doing so will allow open circuit voltages to be generated by the turbine These voltages may be dangerous and may damage the stator coils within the turbine Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 18 of 38 Leading Edge Maintenance Please follow the preventive maintenance programme listed below This will ensure that
35. rough holes solder mask silk screen gold plating Hardware stainless steel zinc plated steel aluminium and Nylon Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 24 of 38 Leading Edge Safety Precautions Safety must always be your primary concern during the assembly installation and operation of your LE 300 turbine and DL300 charge controller Always be aware of the risks involved with mechanical and electrical installation work If in doubt about any issue regarding your turbine system please seek further assistance before proceeding Mechanical Safety Hazards Whilst installing the DL300 charge controller or when performing routine inspection or maintenance always stop the turbine by activating the stop switch Electrical Safety Hazards The LE 300 generates rectified DC voltage and the LE DL 300 controller also operates at these voltages Even at these low voltages there are inherent risks Caution should always be used when connecting an LE 300 turbine or LE DL 300 controller to the electrical system Ensure that you have followed the cable sizing guidelines to ensure that the correct size of cable has been selected If a cable of insufficient cross sectional area is used at any point in the electrical system heat will build up in the cables causing a potential fire hazard A properly sized fuse or circuit breaker should be used in the cables connected to the battery This will
36. rrounding environment More or less power is diverted to the dump load according to how much is being supplied to the battery and also in relation to the state of charge of the battery The LE DL 300 Features PWM Pulse Width Modulation for highest charging performance without flicker Selectable three stage charging or over voltage protection mode Selectable for sealed or flooded batteries using jumpers Power 12 Volt version DL300 12 Recommend fuse or circuit breaker 30 Amps Integrated load resistor 300 Watt wire wound Quiescent current when not load dumping 2 6mA 12 Volts Power 24 Volt version DL300 24 Recommend fuse or circuit breaker 15 Amps Integrated load resistor 300 Watt wire wound Quiescent current when not load dumping 3 0mA 24 Volts Connections 10 32 brass screws for V and V Two 1 2 3 4 concentric NPT knockouts and two 1 2 NPT knockouts Mounting Mounts to vertical concrete metal drywall or other non flammable surface Uses four 10 screws Body sits 19 mm out from wall Enclosure suitable for indoor mounting Weight and Dimensions Dimensions 88 mm wide 95 mm tall 470 mm long 3 375 x 3 75 x 18 5 in Weight 1 94 Kg 4 28 pounds Shipping Dimensions 102 mm wide 108 mm tall 508 mm long 4 0 x 4 25 x 20 in Shipping Weight 2 15 Kg 4 75 pounds Materials Enclosure 18 gauge mild steel powder coated black Circuit board FR 4 1 6 mm 0 062 in double sided plated th
37. s e Never run the LE 300 off load with the output cables not connected to anything Please use common sense when installing and operating your turbine Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 4 of 38 Leading Edge Specifications Turbine Name LE 300 Turbine Part Number GA LETU 007 Nominal Voltage 12 24V DC or Grid tie optimised Rotor Diameter 1000 mm Rated Wind Velocity 8 m s Rated Output 85 Watts Max Output 300 Watts Rated RPM 800 Start up Wind Velocity 2 m s Total weight 6 5 Kg Tower mount 48 3 mm 50 mm Outer Diameter Tube Chassis Construction Aluminium Rotor Blades 3 off Glass Reinforced Nylon Fig 1 Diametric View 39 370 1000 00 _ 120 139 211 55 511 5 1 902 48 30 Fig 2 Operating Envelope 300w 250w 200w 150w 100w Power Output watts 50w ms 2 4 6 8 10 12 14 16 18 es 133 77 11 6 155 194 233 272 311 349 Wind Velocity Fig 3 Energy Conversion Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 5 of 38 d Leading Edge Your LE 300 turbine will arrive containing the components shown below If any of the components are missing or damaged please contact your dealer immediately Package Contents LE 300 Chassis Qty 1 Rotor Blade Qty 3 Hub Plate
38. s means that the turbine s power output is always utilised whether the batteries are fully charged or not Larger capacity battery banks will be able to store more energy and so the dump load will be used less Do not use a photovoltaic type charge controller with your LE 300 turbine e Hybrid Systems LE 300 turbine be used in parallel with PV panels We recommend that the PV panels are wired independently with a separate charge controller specifically designed for use with them and connected in parallel with the battery bank see Fig 13 Use of Grid Tie Inverters It is possible to connect your LE 300 to a grid tie grid connect inverter It is recommended that only grid tie inverters supplied by Leading Edge Turbines are used to ensure that an appropriate MPPT curve has been programmed Please refer to the following wiring diagrams as a guide Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 13 of 38 Leading Edge LE 300 TURBINE PN GA LETU 007 TOWER OR SUPPORT STRUCTURE EARTH GROUND RUN STOP J CQ 5 WITCH BOX DETAILED INSTRUCTIONS REQUIRED PN GA CTRL 008A ees pen UR J m CHASSIS GROUND gren MED 1 AMMETER nM A lt OPTIONAL i oi FUSE OR BREAKER RECOMMENDED Ne i C 7
39. sfactory installation or operation Designed amp Manufactured in the UK by Leading Edge Turbines Ltd Skyrrid Farm Pontrilas Hereford HR2 OBW Tel 44 0 845 652 0396 www leturbines com Compliant with EN BS 61400 2 Safety of Small Wind Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 22 of 38 4 Leading Edge Appendix 1 LE DL 300 Charge Controller User Manual Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 23 of 38 Leading Edge Please read this manual thoroughly before attempting to assemble install or operate your LE DL 300 Charge Controller This will assure optimum performance and safety Introduction The LE DL 300 Series Dump Controller and Load is an integrated solution designed to prevent 12 or 24 Volt batteries from overcharging It is designed to be used with small wind systems operating a LE 300 turbine Compact and easy to install the LE DL 300 was developed especially for the LE 300 turbine It incorporates a 300 Watt resistor heater and controller board in a stout powder coated steel enclosure Operation amp Specification As the LE 300 turbine charges the batteries the State of Charge SOC and battery voltage will rise Once the batteries reach full capacity the dump load controller begins to bleed power from the turbine into the dump load This energy is then dissipated as heat into the su
40. siderations 19 e 20 evasive 21 DISC NNN cor i ep AK 22 Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 2 of 38 Leading Edge Introduction Please read this manual thoroughly before attempting to assemble install or operate your LE 300 small wind turbine This will assure optimum performance and safety Leading Edge Turbines has spent many years developing the ideas and technology behind your turbine The LE 300 turbine features an array of innovations and construction techniques as well as heavy duty engineering to ensure optimum efficiency and a long operating life The LE 300 has been designed to be simple economic durable and yield excellent performance Specific LE 300 turbine features e nnovatively designed axial flux alternator using neodymium iron boron magnets A laser cut aluminium chassis using Yaw wing design to ensure responsive yawing and reduce weight Maintenance free low friction bearing in both main shaft and yaw assemblies Extremely quiet injection moulded blades with Whispower geometry and aerofoil design Long life yaw pivot slip rings and wipers Easy tower top installation Simple design for low cost and durability Fully marinised using stainless steel fixings and anodised aluminium components Lo
41. sides of the LE 300 chassis Inspect the slip rings and wipers for obvious signs of wear Replace the wipers if required part numbers available in the Spares section Reassemble the yaw pivot carefully do not to pinch any cables e Check that all electrical connections are sound and free from corrosion e Generally ensure that the turbine is in good working condition and is safe for continued use After five years of normal operation e We recommend that the rotor bearings and rotor blades should be replaced after five years of continuous operation This will ensure that the turbine s performance and safety is not compromised Other Considerations e The equipment used in the charging system batteries charge controller PV panels invertors etc should be maintained according to the instructions published by the relevant manufacturer e Where lead acid batteries are used it is especially important that they are maintained carefully Failure to do so will result in the batteries being rendered useless within a short period of time Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 19 of 38 d Leading Edge Spares The following components may need to be replaced during the service life of your LE 300 turbine Please contact your nearest Leading Edge Turbines Dealer and quote the part numbers listed below Rotor Blade qty 3 matched set DP LETU 145 Rotor Bearings amp Ho
42. using DP LETU 155 Slip Ring Wiper qty 1 DP LETU 142 Slip Ring qty 1 DP LETU 140 Coil Disc 24 VDC SA LETU 014 12V Coil Disc 12 VDC SA LETU 014 24V Bridge Rectifier OS 019 Yaw Bearing amp Housing DP LETU 141 Run Stop Switch Box GA CTRL 008A LE DL 300 Diversion Controller GA CTRL 001A Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 20 of 38 Leading Edge Warranty Your LE 300 turbine carries a five year warranty from the original purchase date as supported by a retailer s receipt During the first two years of the warranty period any component found to be defective in material or workmanship will at the discretion of Leading Edge Turbines be replaced or repaired at no charge For the remaining three years of the warranty period Leading Edge Turbines will supply non consumable parts at no charge Leading Edge Turbines reserves the right to charge for fitting of parts supplied during this three year period In all cases for minor component failures replacements may be sent directly to the customer dealer for replacement For more serious defects we may suggest a return to base arrangement for replacement or repair In all cases Leading Edge Turbines will take reasonable action to ensure customer satisfaction You will always receive a warm courteous service in or out of your warranty period Your turbine must be installed and operated in accordance with
43. w mass to help reduce exerted forces and ensure easy installation LE 300 has been designed to for both land based and marine environments Thanks to its unique design the LE 300 will minimise corrosion in both normal and salt water operating conditions Applications include Marine Remote homes caravans Street lighting and road signage Complementary installation with photovoltaic modules for home power Farm utilities electric fencing irrigation etc Wind electric water pumping Cathodic protection Monitoring sites Telecommunications The Developing World Tel 44 0 845 652 0396 Skyrrid Farm Pontrilas Hereford HR2 OBW UK www leturbines com Page 3 of 38 Leading Edge Safety Precautions Safety must always be your primary concern during the assembly installation and operation of your LE 300 turbine Always be aware of the risks involved with mechanical and electrical installation work If in doubt about any issue regarding your turbine please seek further assistance before proceeding Installation of the LE 300 turbine should only be undertaken by suitably competent and qualified personnel Mechanical Safety Hazards e The main rotor is the most obvious and serious mechanical safety risk When the turbine is operating at its rated performance the blades will be very difficult to see due to the speed of rotation Never approach the turbine whilst it is operating Always shut down the turbine by activating the sto
44. www leturbines com Page 32 of 38 Leading Edge Introduction Small wind turbines are a complex mixture of mechanical aerodynamic electrical electronic and civil engineering Even with the most careful installation it is possible that problems may occur during the installation or at some point during the life of the turbine The following headings are designed to help the installation engineer or turbine user to identify and resolve any issues with the system as a whole Before referring to the trouble shooting guide ensure that the turbine has been correctly installed as per the instructions described earlier in this user manual Common Problems pertaining to Installation Issue The turbine spins extremely quickly and noisily but doesn t deliver any electrical current to the batteries Potential Causes e The turbine may be running in an off load state meaning that the circuit from the turbine to the batteries is not complete In this situation the turbine is free spinning and the turbine may be generating higher voltages than anticipated from the turbine output cables Check that all of the connections from the turbine through the run stop switch to the batteries are correct If a fuse or circuit breaker has been fitted to the turbine ensure that this is correctly closing the circuit Never leave the turbine running in an off load state as it may cause damage to the turbine during high winds e The turbine may have developed
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