Photovoltaic Parabolic Trough Concentrator With Gps Tracking System

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Photovoltaic Parabolic Trough Concentrator With Gps Tracking System Specification

Voltage
DC 12V/24V/48V output (as specified)

Automation Grade
Fully Automatic

Frequency
50/60 Hz

Core Components
Parabolic reflector, photovoltaic cells, GPS tracking unit, inverter module, support structure

Temperature Range
-20C to +60C

Accuracy
GPS tracking accuracy 0.1

Capacity
1 kW (typical system capacity, customizable as per user needs)

Feature
Dual-axis GPS automatic solar tracking, high conversion efficiency, weather resistant

Power Source
Solar

Model No
PTC-GPS-01

Measurement Range
Irradiance: 01500 W/m, Output current: 020A

Equipment Materials
Aluminum alloy frame, high-reflectivity mirror, tempered glass, stainless steel hardware

Type
Photovoltaic Parabolic Trough Concentrator

Usage
Solar power generation for residential, commercial, and research applications

Display Type
Digital (LCD for tracking and monitoring)

Dimension (L*W*H)
3200mm x 900mm x 1500mm (customizable)

Weight
Approx. 90 kg (depends on size/model)

Photovoltaic Parabolic Trough Concentrator With Gps Tracking System Trade Information

Payment Terms
Cash Advance (CA), Cash in Advance (CID), Cheque, Telegraphic Transfer (T/T), Letter of Credit (L/C)

Sample Available
Yes

Sample Policy
Sample costs shipping and taxes has to be paid by the buyer

Packaging Details
carton box, export quality also available

Main Export Market(s)
Asia, Eastern Europe, Western Europe, Middle East, Africa

Main Domestic Market
All India

Certifications
ISO 9001, 14001 ,CE

About Photovoltaic Parabolic Trough Concentrator With Gps Tracking System

PHOTOVOLTAIC PARABOLIC TROUGH CONCENTRATOR WITH GPS TRACKING SYSTEM

PTC

Aperture area 4:3 m2
Concentration ratio 20
Optical efficiency 0.9
Rim angle 90

PV LAVER

Type Triple junction
Area 0.15:4 m2
Emissivity 0.98
Thermal conductivity 50 w/m k
Module efficiency 0.9
Inverter efficiency 0.9
Rectangular nine
Thermal conductivity 399 w/m k
Selective laver
Thermal conductivity 401 w/m k

High-Efficiency Dual-Axis Solar Tracking

Cutting-edge GPS-based dual-axis automatic tracking maximizes sunlight capture throughout the day with 0.1 accuracy. The silver-coated glass mirrors reflect more than 94% of incident sunlight onto high-performance photovoltaic cells, resulting in an overall system conversion efficiency of up to 20%. This leads to increased daily energy yield and enhances long-term operational value.

Durability and Versatile Installation

Rigorously engineered using an aluminum alloy frame, tempered glass, and stainless steel hardware, the system endures tough environmental conditions and supports both rooftop and ground mounting. A waterproof IP65 rating and wind resistance up to 120 km/h ensure reliable operation over more than 20 years. Modular, plug-and-play installation simplifies setup and minimizes site disruption.

Advanced Monitoring and Protection

Featuring a digital LCD display for real-time tracking, system status, and performance data, users can easily monitor and optimize operation. The integrated inverter produces pure sine wave AC output suitable for grid-tie or off-grid setups, while comprehensive safety features guard against overcurrent, over/undervoltage, and water ingress.

FAQs of Photovoltaic Parabolic Trough Concentrator With Gps Tracking System:

Q: How does the GPS-based dual-axis tracking system enhance solar energy generation?

A: The integrated GPS-based dual-axis tracking system precisely aligns the parabolic reflector with the suns path, exploiting optimal angles throughout the day. This accurate tracking, within 0.1, ensures that photovoltaic cells consistently receive maximum sunlight, significantly improving the systems overall energy conversion efficiency up to 20%.

Q: What materials are used in the construction of the concentrator, and why?

A: The concentrator uses a silver-coated glass mirror with over 94% reflectivity to maximize sunlight capture, mounted on an aluminum alloy frame for robust, lightweight support. Tempered glass and stainless steel hardware enhance durability, enabling the unit to withstand harsh weather and maintain structural integrity for over 20 years.

Q: When is the Photovoltaic Parabolic Trough Concentrator suitable for installation?

A: This system can be installed year-round due to its wide operational temperature range of -20C to +60C and high wind resistance (up to 120 km/h). Its minimal groundwork and modular, plug-and-play design make it an ideal solution for new builds or existing sites, whether for residential, commercial, or research use.

Q: Where can the system be mounted and what are its typical installation requirements?

A: The concentrator is compatible with both ground and rooftop installations. Thanks to its modular design and compact dimensions (customizable), installation requires only minimal site preparation. The system includes plug-and-play connectivity, facilitating rapid deployment in a variety of environments.

Q: What steps are involved in the installation and operation process?

A: Installation involves securing the support structure, positioning the parabolic trough for optimal sunlight, connecting the modular plug-and-play components, and commissioning the GPS tracking and inverter module using the digital LCD interface. Once set up, the system operates fully automatically, requiring minimal maintenance.

Q: How can the produced energy be utilized and monitored?

A: Electricity generated (typically 1 kW per system) is delivered as pure sine wave AC through grid-tie or off-grid inverter options. Real-time monitoring, grid synchronization, and performance analytics are accessible via an integrated digital LCD display, enabling efficient management and usage of the produced solar power.

Q: What are the main benefits of choosing this system for solar energy needs?

A: Key advantages include high conversion efficiency, robust weather resistance, longevity exceeding 20 years, easy installation, dual-axis GPS tracking, customizable capacity, comprehensive safety features, and suitability for diverse applicationsmaking it a reliable and high-performing solar energy solution.

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