System Ships in Approximately 3-5 Business Days After Funds Clear. Power Center Ships in 20 Business Days (NOTE: Power Center & Wind Turbine Subject to Seasonal Increases) ● Line Drawing send via Email [PDF] 3 - 5 business days after funds clear.
[See Optional Accessories & Related Items Below] Solar panel roof or ground racks, batteries and tower kit are site specific options that are NOT included with the base package.
● This Hybrid Wind-Solar 5.4 kW 48VDC power system is designed to be used off-grid or on-grid as backup. On-Grid means Utility Grid power is available and can be used to recharge batteries but an "on-grid" inverter will not export power.
One of the most important considerations is siting. General industry standard is AR40-10-48 ft. above obstacles within AR40-10-480 ft. Obstacles in the primary wind energy direction have an increased impact on the production of a wind turbine by altering the resource or increasing turbulence. There are multiple ways to help avoid this potential conflict, including siting the turbine in a more open area, locating the turbine upwind of obstacle(s) to the prevailing wind direction, or increasing the tower height. Poor siting not only affects production and wear and tear on the turbine, but also the experience and overall satisfaction of wind as a viable power generating source.
To avoid air turbulence, wind turbines should be placed on a tower high enough that the bottom of the turbine rotor’s swept area is at least 20’ to AR40-10-48’ higher than any buildings, trees, or other obstructions within a AR40-10-480’ to 500’ radius. If the wind at the site primarily comes from a particular direction, and the obstructions are not in the wind path, then less clearance may be allowable as long as the flowing air is laminar. In the illustration below, a kite with long streamers tied to the line at 10’ intervals can be used to find the height above ground level where the air flow smooths out. Look for the first streamer to be fully furled out.
The distance from the tower to the battery bank needs to be taken into consideration. This will dictate the size, length, and therefore the cost of wire. Locating the turbine and tower should be thoroughly thought out with attention to: the ease of access between the two for possible trenching, potential traffic, direct burial cable or conduit, junctions or splices, and safety. The proximity to property lines and surrounding area to accommodate access to the turbine, whether the tower is tilted down, or serviced by a lift will also affect tower location.
There are different types of towers onto which a wind turbine can be mounted. These include: lattice or truss type towers, stand-alone towers (monopole), guyed towers, and homemade. There are pros and cons associated with each as well as applications. Some considerations are:
● Guyed towers are relatively inexpensive, easily raised and lowered, can be assembled onsite, but require a larger foot print.
● Stand-alone (pole) towers are generally more attractive, no guy wires, have height limitations, and require extensive foundation and concrete work prior to installation.
● Lattice or truss type towers generally are climbable, can be assembled onsite, require concrete, a larger base footprint, and possibly guy wires.
Wind speeds are highest during the winter months when solar resources are at their minimum Air density is highest in winter maximizing wind power production wind provides power during inclement weather when sunshine is not present wind provides power at night
● Winter wind speeds primary focus in winter because the mean upper-air wind speeds are stronger than in any other season over most of the contiguous United States.
● Regions in white; Typically solar only regions. Regions in light blue; Hybrid solutions should be analyzed. Light blue to dark blue; Hybrid solutions strongly recommended.
In most instances, solar is utilized as a power generation medium for off-grid applications. Primus Wind Power and Blue Pacific Solar are advocates for wind to be used in conjunction with solar for system redundancy, more uniform power generation, and reduced depth of discharge. AIR is a suitable complement for nearly any off-grid power system where solar is being used.
● Energy loads that are necessary in the wintertime and nighttime off-grid should represent a wind component using the AIR 1-ARAR40-10-48-10-48 turbine. A prime example is heating, where the load is increased in the wintertime (due to longer nights) and where energy generation is a complement to solar during the nighttime when wind power generation can occur and solar power generation cannot.
Hybrid Production = 22,500 Watts Per Day ● Assumptions: STC 300 Watt Solar Panel Rating [Factory Rating] @ 4.0 Sun Hours (Dec); Turbine Production Assumes Average Wind of 13 MPG with Proper Siting. Sun Hours should reflect the average value of total solar energy received in peak-sun-hours per day on an optimally-tilted surface during the month with the lowest solar radiation (not the yearly average). This is the best number to use in off-grid system design where the electrical demand is continuous or is not expected to vary seasonally and the system must be designed to operate year-round.
IMPORTANT: Amps AC Out; Define Your Needs: A Single Magnum inverter's continuous AC output current is limited to 30 AAC. The concern here is that the combination of your normal loads (Not Surge Loads) might exceed the inverters output current rating (Amps Out) on larger solar systems. It is critical in the design selection that you make sure the continuous AC load combination of your power requirements is at or below the 30 AAC output limit of the single Magnum inverter in these kits.
Technical Specifications: Primus Windpower Turbine (w/ built in charge contoller): Approx. 40 kWh/mo at 5.5 m/s (13 mph) ● 400W 48VDC 1-ARAR40-10-48-10-48 ( ● Optional Tower Kit Sold Seperatly (See Below)) ● Energy = Approx. 40 kWh per Month [1,333 Watts per Day] @ 13 MPH Average Wind ● Startup Wind Speed 8 MPH ● Survival Wind Speed 110 MPH ● Mount 1.5 Inch Schedule 40 Pipe 48MM Outer Diameter. ● E-Panel MidNite MNEMS4448PAECL150-BMK power center 4.4 kW 120/240VAC 48VDC battery based inverter. ● The Primus Wind Control Panel (WCP) is a low cost analog control panel for use with AIR AR40-10-48. The WCP controls and monitors the AIR wind turbine and is equipped with a power On/Off circuit breaker, analog ammeter (indicating wind turbine current production) and a Stop/Run switch (for direct control of the turbine). A clearly marked rear terminal block is provided for easy interconnect of the two turbine wires and two battery power wires. It is a 5 A version for 48 VDC systems which are fully calibrated and ready for installation. The panel measures 3.5” x 5” and the Surface-mount black plastic enclosure allows for mounting of the WCP on a flat surface.
Primus AIR AR40-10-48 is the premier micro-wind turbine for land-based applications. It operates efficiently across a wide-range of wind speeds and is ideal for pairing with solar to off set seasonal variation, delivering more consistent energy. The Magnum inverter produces pure sine wave clean electricity drawing power from the energy stored in a battery bank. Mechanically and electrically engineered, every component has been specially selected to assure the highest performance with this safe simple-to-install kit.
The AIR AR40-10-48 is quieter, more efficient, and precision engineered to deliver more energy at lower wind speeds than any other wind generator in its class. Air Breeze is the next generation of Air turbines with more than 100,000 units sold in 120 countries makes it the world's most popular small wind turbine.
Magnum inverters are pre-wired in the power center installed on the MidNite MNE175STM-L -240 white steel E-Panel (MidNite Magnum MNEMS4448PAECL150-BMK power center) which include 1 Magnum MS4448PAE inverter / charger, ME-ARC50 remote display, a MidNite Classic 150 charge controller for up to 15 panels, WBjr current sense module for Classic provides the battery state of charge. 2 MNEDC panel mount breakers, 175 amp Battery Main Breaker, DC-GFP built into the Classic, Arc Fault Detector built into the Classic, 3 MNSPD (Surge Protection Devices), 1 MidNite BTS (Battery Temperature Sensor), 1 Magnum BTS. Additionally, we supply (installed by others) 1 MidNite Solar, circuit breaker, DIN Mount, 2-pole, 120/240VAC for additional AC out protection.
Line drawing questions or just stuck? No worries we have your back and will be here to help whenever you have questions about your purchased Kit. For orders larger than $2,000.00 a Technical Sales Team Group Captain will be assigned your account. Your Technical Advisors job is to coordinate all parts and pieces of your order and to work with you throughout the process. This support helps because we will be providing you with a single contact point to call with your questions. Your technical support contact does not replace the maufactures warranty technical support. DIY means you accept the responsiblity of reading and following the line diagram and other installation documents prior to tackling the installation.
Blue Pacific Solar® SolarEdge Kit is featured with Mission panels. Mission Solar Energy, proudly assembled in the USA, is headquartered in San Antonio, TX with module facilities onsite. Mission Solar hardworking team calls Texas home and is devoted to producing high quality solar products. Our supply chain includes local and domestic vendors. 25 Year Warranty, UL Listed.
Augers - If the soil conditions make their use feasible, augers are the simplest anchors to install. Augers screw into the ground by use of a piece of wood, pipe or rod as a “cheater bar”. If a mistake is made or if the tower must be removed an auger can be “unscrewed” out of the ground and reused. Augers depend on the soil holding together for their strength and are not suitable for sand or loose gravel. If the soil is rocky or clay-like you may have difficulty screwing them in. An auger is usually installed by screwing it straight into the ground a few inches to get it started and then tilting it to the desired angle and continuing. A substantial downward pressure is usually necessary to get an auger started. Screw the augers in as far as possible for the greatest strength.