Vaccine storage capacity: 70 L
Volume category: >/=60, <120L
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
Refrigerant: R600a, 85 grams
PQS prequalified Solar direct drive combined refrigerator and freezer with no battery for storage of vaccines at +2 ?C to+8?C and freezing of ice packs in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Solar Powered Robotic Sets
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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.
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The solar energy is captured by a cylindrical parabolic solar concentrator in which the parabola axis is constituted by a high thermal conductivity tube and black colour containing an adequate liquid able to capture the solar energy increasing its temperature. The Computerized Educational Equipment On The Thermal Solar Refrigeration Cycle is one of the most interesting applications of solar thermal energy because it is able to use the solar energy and, via an absorption cycle, to convert the energy in a source of cold that can be used for food conservation chain, air conditioning, chilling water and in general in all the applications of refrigeration and conditioning purposes without the use of electrical energy. The Computerized Educational Equipment On The Thermal Solar Refrigeration Cycle has been designed and manufactured by Italia to allow the experimental study of an absorption refrigeration plant using solar energy as energy source. Owing the peculiarity of the plant able to use the solar energy to convert it in a source of cold, the plant is particularly interesting in all the countries of the equatorial area, where the sun is the main energy source and the coverage of the electrical network is scarce.
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Vaccine storage capacity: 57 L
Volume category: <60L
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Refrigerant: R600a, 100 grams
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
PQS prequalified Solar direct drive combined refrigerator and freezer with no battery for storage of vaccines at +2?C to+8?C and freezing of ice packs in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
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.
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Vaccine storage capacity: 102 L
Volume category: >/= 60, <120L
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Refrigerant: R600a, 100 grams
PQS prequalified Solar direct drive combined refrigerator and freezer with no battery for storage of vaccines at +2?C to+8?C and freezing of ice packs in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Parabolic reflectors are used to focus the sun's energy into the end point of the cylinder, where gas expands and pushes the piston to do the work. Solar Stirling Engine Technology is part of the study of external combustion engines. It is based on converting thermal energy to mechanical energy: For this case, the source is solar energy. During cloudy days, alcohol can be used as an external source of energy.
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Volume category: <60L
Vaccine storage capacity: 37.5L
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
Refrigerant: R600a, 90 grams
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
PQS prequalified Solar direct drive combined refrigerator and freezer with no battery for storage of vaccines at +2 ?C to+8?C and freezing of ice packs in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Vaccine storage capacity: 100L
Volume category: >/= 60, <120L
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Refrigerant: R600a, 135 grams
PQS prequalified Solar direct drive combined refrigerator and freezer with no battery for storage of vaccines at +2?C to+8?C and freezing of ice packs in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Products used to explore the distance between different stars and model size, equipped with observation, explore the year, different seasons, different periods of constellation arrangement. This instrument is mainly used for nine students to explore the planets of the solar system, according to the distance from the sun, they are Mercury, Venus, earth, Mars, Jupiter, Saturn, Uranus, Neptune and Pluto.
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Vaccine storage capacity: 36 L
Volume category: <60L
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Refrigerant: R600a, 60 grams
PQS prequalified Solar direct drive refrigerator with no battery for storage of vaccines at +2?C to+8?C in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
The panel has a thin sheet metal absorber backed by riser tubes and insulating material to reduce heat loss to the rear. The collector has a purpose designed and built panel for quality and reliability. A sturdy mobile frame supports the collector. To allow users to adjust its angle, the frame has a hinge. A box with a clear cover encloses the panel, forming the collector.
It allows students to measure and find the efficiency and heat losses of a flat plate solar energy collector. This equipment shows how a flat plate solar energy collector works.
Vaccine storage capacity: 52.5 L
Volume category: <60L
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
PQS prequalified Solar direct drive refrigerator with no battery for storage of vaccines at +2 ?C to+8?C in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Refrigerant: R600a, 70 grams
Experiments:
Measurement of the efficiency of the collector with and without a transparent cover.
Measurement of the maximum possible energy collector temperature.
Understanding the effective use of the direct component of solar radiation.
Demonstrations of the performance, advantages and limitations of a focusing solar energy collector.
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.
Vaccine storage capacity: 88 L
Volume category: >/= 60, <120L
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Refrigerant: R600a, 70 grams
PQS prequalified Solar direct drive refrigerator with no battery for storage of vaccines at +2 ?C to+8?C in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
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.
Vaccine storage capacity: 132 L
Volume category: >120L
Solar radiation reference period of 3.5 kWh/m²/day and hot zone (+43°C) test temperatures.
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF: Grade A
PQS prequalified Solar direct drive refrigerator with no battery for storage of vaccines at +2?C to+8?C in areas without any electricity, or where there is less than eight hours of reliable electricity over a typical day.
Refrigerant: R600a, 70 grams.
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.
