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The Solar Photovoltaic Troubleshooting Learning System includes all components needed to develop hands-on, job-ready skills: all solar specific components as well as balance of system items. The solar photovoltaic PV learning system contains a mobile workstation, component panels with breakers, combiner box, MPPT charge controller, lamps, batteries, meters, grid-connected inverter, a fault insertion system, PC-based multimedia student curriculum, and instructors assessment guide. The required two-panel array provides a complete solar PV troubleshooting experience.
Solar Photovoltaic Troubleshooting Learning System Installing and maintaining solar photovoltaic (PV) systems requires hands-on skills and troubleshooting ability across the types of PV systems commonly used such as AC, DC, and grid-connected. Budding engineers and designers need to understand the technologies used in these systems as well.
The Solar Photovoltaic Troubleshooting Learning System teaches students connection, operation, programming, and troubleshooting of AC/DC and grid-connected systems. Solar Photovoltaic Troubleshooting Learning System allows students to develop the specialized skills and knowledge needed for working with the common types of PV systems. The curriculum is highly interactive, PC-based multimedia that allows students to use the learning style best for them reading, listening, visual.
Features:
Balance of System Components Replicates Real World PV Systems
Computerized Fault Insertion
Grid-Connected and Micro Inverters
Modern Communications and Programming
Mobile, Multiple PV Panels.
Solar Thermal Troubleshooting includes all components needed to develop hands-on, job-ready skills. The learning system contains a mobile workstation, multiple component circuit panels, two solar collectors, and fault insertion. An optional sun simulator is available to facilitate classes indoors when outdoor conditions do not support solar heating.
Installing and maintaining Solar Thermal Closed Loop Systems requires hands-on troubleshooting ability across both drain back and pressurized systems. Likewise, engineers and designers need to understand the technologies utilized by these systems.
Solar Thermal Troubleshooting teaches learners about connecting, operating, programming, and troubleshooting both drain back and pressurized systems. The curriculum is presented in a highly-interactive, multimedia format that allows learners to use the learning style best for them: reading, listening, or visual. Solar Thermal Troubleshooting supports the Certified Solar Thermal System Installer. Solar Thermal Troubleshooting Closed Loop Learning System allows learners to develop the specialized skills and knowledge needed for working with the two common types of thermal closed-loop systems: drain back and pressurized.
Two Types of Closed Loop Thermal Systems:
Includes the components needed to configure either system, including both an expansion tank and drain back tank. Learners will switch between the two systems with valving. Solar technicians will encounter both drain back and pressurized closed-loop solar thermal systems. Across any given region that experiences freezing conditions, both of these systems are used extensively.
Features:
Fault Insertion for both Electrical and Fluid Systems
Balance of System Components
Two Types of Closed-Loop Thermal Systems
Replicates Real-World Thermal Systems
The Solar Thermal Installation Learning System teaches students the installation and commissioning of closed loop and open loop solar thermal systems for commercial and residential applications. The demand for qualified Solar Technicians is rising, as more consumers and businesses apply solar energy in their communities. Students will learn how to install systems by selecting, preparing, mounting and connecting solar thermal components using copper tubing, PVC piping, and electrical wiring. Students will create and commission complete working systems, just as they would do on the job.
Installation Skills Practice the Solar Thermal Installation Learning System provides a platform where students install real world systems using components commonly found in commercial and residential environments. Students select materials, solder and cut copper tubing, cut and glue PVC pipe, and run wire to assemble working systems, just as they would do on the job.
The Solar Thermal Installation Learning System includes a mobile workstation with solar thermal components, solar thermal collectors, PC-based interactive, multimedia student curriculum, and teachers guide. The mobile workstation is equipped with shadow boards for component storage, a benchtop worksurface and vise for tubing preparation, and mounting surface for assembly of solar thermal systems.
Features:
Efficient, Effective, and Safe Training
Installation Skills Practice
Multi System Capabilities.
The Solar Thermal Sun Simulator includes a stationary frame, sun simulator lights with heater assembly, and power box and cable. The light positions are adjustable. This system requires a Wire electrical service.
The Solar Thermal Sun Simulator for use indoors. This simulator provides thermal energy to simulate solar thermal power for commercial and residential systems. Instructors are often faced with challenges in teaching solar when faced with inclement weather. The Solar Thermal Sun Simulator provides the heat energy needed to simulate the suns solar energy when the solar thermal installation system is being used indoors.
Solar Thermal Cold Water Supply Station will enable the three solar thermal learning systems to be self-contained. The Solar Thermal Cold Water Supply Station is designed to reduce the temperature of hot water from the open loop, closed loop, or installation solar thermal learning systems and feed it back to the learning system at a temperature and pressure that is similar to a city water supply. This trainer includes the frame, ball valves for shutoffs and bypasses, relief valve to adjust temperature and pressure output, temperature gauges, a pressure gauge at outlet of chiller, AC pump, AC chiller, water storage tank, control unit, ground fault circuit interrupter, and an AC circuit breaker with lockout / tagout.
....Solar Site Analysis course also covers array site evaluation and layout including methods used to perform a shading analysis, how to use a sun path calculator, and how to interpret a shading analysis. Solar Site Analysis provides detailed information on siting a solar array. Solar Site Analysis course covers site assessment and permitting describing the steps of a preliminary site assessment, the codes and jurisdiction authorities for solar energy system installation, and the permits and licenses required for solar energy system installation. It includes a Solar Site Analyzer, Student Learning Activity Module Set 1 Seat, a Teachers Assessment Guide, and Installation Guide. The course goes into component location on the site describing the guidelines for suitable locations of Electrical PV and Solar Thermal components.
....Turbine Electric Hub Troubleshooting Learning System teaches learners adaptive skills for wind turbine operation, adjustment, and troubleshooting in a wide variety of situations. Turbine Electric Hub Troubleshooting Learning System allows learners to develop and practice component, subsystem, and system level skills. Wind turbine electric hubs present unique operational and maintenance challenges. Wind turbine technicians must pinpoint and resolve a wide variety of situations where the hub is key, especially in changing load conditions. Their troubleshooting and problem solving skills have to be excellent to keep wind turbines operational. Additionally, Turbine Electric Hub Troubleshooting will connect to the Turbine Nacelle Learning System and the Turbine Generator Control Troubleshooting Learning System to create a complete wind turbine learning experience. It is fully functional like a utility-scale turbine electric hub. Turbine Electric Hub Troubleshooting Learning System includes unique electronic fault insertion system, which allows instructors to electronically create realistic hub problems and then track the learners progress in solving the problem.
This system includes a mobile workstation, blade simulator with 3-axis servo system, pitch control unit, emergency power unit, blade simulator, pitch control software, and fault insertion system. Turbine Electric Hub Troubleshooting Learning System is an effective training platform for wind turbine technicians.
Features:
Control Troubleshooting Learning System to create a complete wind turbine learning experience
Connects to the Turbine Nacelle Learning System and the Turbine Generator
Utility Scale Turbine Electric Hub Experience
Computer Based Fault Insertion.
Wind Turbine Generator Control Troubleshooting Learning System allows learners to gain adaptive skills for generator system operation, adjustment, and troubleshooting in a wide variety of situations. It helps learners to develop and practice both wind turbine component and system level skills and gives them the classroom instruction and hands-on experience that they need to succeed in this emerging and growing field. They know how to service, operate, and troubleshoot the generator control system, which includes the generator, rectifier, generator control unit, power distribution panel, pad mounted transformer, and generator control software. Wind Turbine Generator Control Troubleshooting Learning System also includes unique electronic fault insertion system, which lets learners gain hands-on experience with the troubleshooting of realistic generator control problems, as well as receive automatic feedback on their progress. The generator control system is the heart of a utility-scale wind turbine, converting mechanical rotation of the hub into clean, 3-phase power that synchronizes with the utility grid. Keeping these turbines operational and well maintained requires a specialized skill set, and wind turbine technicians possess these skills. Furthermore, Turbine Generator Control Troubleshooting connects to Nacelle and Hub workstations to create a comprehensive wind turbine learning laboratory.
Features:
Computer Based Fault Insertion across All Key Subsystems
Real-World, Utility-Scale Turbine Generator Control Experience
Connects to Nacelle and Hub workstations to create a comprehensive wind turbine learning laboratory.
Turbine Nacelle Troubleshooting Learning System teaches learners adaptive skills for wind turbine operation, adjustment, and troubleshooting in a wide variety of situations. Turbine Nacelle Troubleshooting is fully functional like a utility-scale nacelle, so it allows learners to develop and practice component, subsystem, and system level skills. Operating and maintaining utility scale wind turbine nacelle systems requires unique skills. A wind turbine technician handles a wide breadth of operational and maintenance issues at the top of hundred meter towers. Their troubleshooting and problem solving skills must be excellent to keep wind turbines operational. Furthermore, Turbine Nacelle Troubleshooting connects to the Turbine Electric Hub Learning System and the Turbine Generator Control Learning System to create a complete wind turbine learning experience. This system also includes unique electronic fault insertion system that allows instructors to electronically create realistic nacelle problems and then track a learners progress in solving the problem. Turbine Nacelle Troubleshooting includes a mobile workstation, turbine control unit, nacelle module, hydraulic brake system, wind simulator, monitoring and control software, and fault insertion system.
Features:
Computer Based Fault Insertion
Utility Scale Wind Turbine Experience.
Connects to the Turbine Electric Hub Learning System and the Turbine Generator Control Learning System to create a complete wind turbine learning experience.
Mechanical Drives Wind Technology course introduces mechanical systems and develops fundamental knowledge of mechanical systems and practices. Topics covered include learning how to select, install, adjust, troubleshoot, and repair a range of mechanical systems which are commonly found in both automated and manual machines used in every industry around the world. It will cover basic safety, installation, key fasteners, power transmission systems, spur gear drives, and multiple shaft drives.
Features:
Strong Depth and Breadth of Content
Text and Audio
Built for Self-Paced Learning
Engaging Interactions
Stunning 3D Animations.
Solar PV Installation teaches how to install solar PV applications, emphasizing working with copper tubing, considerations in tubing installation, plastic pipe assembly, and installation of the key electrical, mechanical, and fluid systems. Focuses on the preparation needed for success, tubing selection and insulation, key skills required like soldering and brazing, and plastic pipe specifications and installation.
Features:
Strong Depth and Breadth of Content
Built for Self-Paced Learning
Engaging Interactions
Text and Audio
Stunning 3D Animations.
Solar Thermal Troubleshooting includes all components needed to develop hands-on, job-ready skills. The learning system contains a mobile workstation, multiple component circuit panels, two solar collectors, and fault insertion. An optional sun simulator is available to facilitate classes indoors when outdoor conditions do not support solar heating.
Installing and maintaining Solar Thermal Troubleshooting Open-Loop Learning System requires hands-on troubleshooting ability across both drain back and pressurized systems. Likewise, engineers and designers need to understand the technologies utilized by these systems.
Solar Thermal Troubleshooting teaches learners about connecting, operating, programming, and troubleshooting both drain back and pressurized systems. The curriculum is presented in a highly-interactive, multimedia format that allows learners to use the learning style best for them: reading, listening, or visual. Solar Thermal Troubleshooting Open-Loop Learning System allows learners to develop the specialized skills and knowledge needed for working with the two common types of thermal open-loop systems: drain back and pressurized.
Features:
Replicates Real World Thermal Systems
Balance of System Components
Requirements of Solar Thermal Troubleshooting Open-Loop Learning System
Fault Insertion for both Electrical and Fluid Systems
Optional Sun Simulator
Electricity
Solar Thermal Sun Simulator.
The Alternative Energy Learning System Wind and Solar includes a mobile workstation with solar PV components, small wind components, multimedia student curriculum, and teaches assessment guide. Wind turbine and solar panels also allow for outside use with expansion capability for teaching grid-tie and data acquisition. also offers alternate workstation configurations for either small wind or solar individually. The mobile workstation is equipped with pre-mounted components for easy inventory.
Alternative Energy Learning System supports the training necessary to prepare for portions of the solar and small wind certifications.The Solar And Wind Alternative Energy Training System teaches students key skills needed for job success in small wind alternative energy and solar energy. The demand for qualified solar and small wind technicians is rising, as more consumers and businesses apply solar energy and small wind systems in their communities. Many employers prefer employment candidates who are certified. Critical skill areas covered are system connection, operation, and programming of solar PV (photovoltaic) and small wind systems in commercial and residential applications. Students will receive hands-on alternative energy training and skills they can use on the job.
Convenient Indoor / Outdoor Use:
The solar array easily disconnects from the workstation and sets up outdoors. The Learning System can also be connected to client-supplied roof-top solar panels or wind turbines with the addition of optional interface connections. The Solar And Wind Alternative Energy Training System circuits can be used indoors with sun and wind simulators, or outdoors via the detachable solar panel array or client-supplied external wind and solar sources.
Features:
Convenient Indoor / Outdoor Use
Grid Interactive and Data Acquisition Options
Additional Requirements of Solar And Wind Alternative Energy Training System
Real World Components: Multiple Panel Array and Modern Communications
Solar PV Array Station:
Solar PV Sun Simulator - Alternative Energy
Electricity
Computer.
The mobile workstation is equipped with silkscreened labels for component identification; storage/inventory of clamp meter; digital meter; and storage for consumables, including wire and conduit, directly at the workstation. The Solar Photovoltaic Installation Learning System includes a mobile workstation with solar photovoltaic components, PC-based interactive, multimedia student curriculum; installation manual, and teachers guide.
Solar Photovoltaic Installation Learning System teaches students the installation and commissioning of grid interactive and stand-alone photovoltaic systems for commercial and residential applications. The demand for qualified Solar Technicians is rising, as more consumers and businesses apply solar energy in their communities. Students will learn how to develop and implement a site layout; select and install wiring; calculate PV circuit voltage and currents; and install real world components in PV systems, just as they would do on the job.
Features:
Interactive Multimedia Curriculum
Efficient, Effective, and Safe Training
Installation Skills Practice
Two Real-World installation Processes
Additional Requirements:
Solar PV Hand Tool Package
Solar PV Array Station
Consumables Package.