This document discusses solar dish structures for generating electricity from sunlight. It contains information on a 500 W solar dish structure as well as a 10 kW solar dish structure, both of which aim to harness solar energy through concentrated photovoltaic or thermal means.
The document describes the Solar CatcherTM concentrating solar power system, which uses parabolic dish technology equipped with a Brayton turbine specially designed for areas with medium solar insolation. The system aims to provide the most affordable, modular and scalable solar solution for utility-scale solar power. It can operate individually or be grouped, providing clean energy for small grids or utility-scale applications from 2-100 kW. The system includes options for energy storage like vanadium batteries to allow longer operation times from 6-24 hours.
This document contains 11 entries listing equipment and services provided by Suravut Snidvongs and his company AIRSCAN(THAILAND) to various Thai military and government organizations. The entries include search and rescue radar for the Thai Navy, VIP room and firefighting equipment for the Thai Navy, communications equipment for the Thai Airforce and Navy, and flight management and air conditioning systems for aircraft used by the Thai Department of Aviation and Airforce. The document also lists contact information for Suravut Snidvongs and AIRSCAN(THAILAND).
Overview of Low Speed Surface Aerator Chaipattana towards Performance Enhance...Jack Wong
Water aeration is often required in water bodies that suffer from anoxic conditions, usually caused by adjacent human activities such as sewage discharges, agricultural run-off, or over baiting a fishing lake. Aeration can be achieved through the infusion of air into the bottom of the lake, lagoon or pond or by surface agitation from a fountain or spray like device to allow for oxygen exchange at the surface and the release of noxious gasses such as carbon dioxide, methane or hydrogen sulfide.
The researchers review types of water aerator in The Kingdom of Thailand and also in the world. Water Wheel Low Speed Floating Mechanical Surface Aerator Chaipattana, Model RX-2, was the most popular in Kingdom of Thailand. Next, the paper describes the idea towards the development and performance enhancement of a Stand Alone Solar Water Wheel Low Speed Surface Aerator Chaipattana RX-2-3 without battery, reduced power consumption and increased oxygen dissolved in water.
This document discusses solar dish structures for generating electricity from sunlight. It contains information on a 500 W solar dish structure as well as a 10 kW solar dish structure, both of which aim to harness solar energy through concentrated photovoltaic or thermal means.
The document describes the Solar CatcherTM concentrating solar power system, which uses parabolic dish technology equipped with a Brayton turbine specially designed for areas with medium solar insolation. The system aims to provide the most affordable, modular and scalable solar solution for utility-scale solar power. It can operate individually or be grouped, providing clean energy for small grids or utility-scale applications from 2-100 kW. The system includes options for energy storage like vanadium batteries to allow longer operation times from 6-24 hours.
This document contains 11 entries listing equipment and services provided by Suravut Snidvongs and his company AIRSCAN(THAILAND) to various Thai military and government organizations. The entries include search and rescue radar for the Thai Navy, VIP room and firefighting equipment for the Thai Navy, communications equipment for the Thai Airforce and Navy, and flight management and air conditioning systems for aircraft used by the Thai Department of Aviation and Airforce. The document also lists contact information for Suravut Snidvongs and AIRSCAN(THAILAND).
Overview of Low Speed Surface Aerator Chaipattana towards Performance Enhance...Jack Wong
Water aeration is often required in water bodies that suffer from anoxic conditions, usually caused by adjacent human activities such as sewage discharges, agricultural run-off, or over baiting a fishing lake. Aeration can be achieved through the infusion of air into the bottom of the lake, lagoon or pond or by surface agitation from a fountain or spray like device to allow for oxygen exchange at the surface and the release of noxious gasses such as carbon dioxide, methane or hydrogen sulfide.
The researchers review types of water aerator in The Kingdom of Thailand and also in the world. Water Wheel Low Speed Floating Mechanical Surface Aerator Chaipattana, Model RX-2, was the most popular in Kingdom of Thailand. Next, the paper describes the idea towards the development and performance enhancement of a Stand Alone Solar Water Wheel Low Speed Surface Aerator Chaipattana RX-2-3 without battery, reduced power consumption and increased oxygen dissolved in water.
This document summarizes the development of a new solar powered water wheel aerator model, the Chaipattana RX-2-3. The original RX-2-2 model required a 2HP induction motor that was difficult to power with solar cells. The new RX-2-3 model uses a 150W universal motor that can be powered by a single 300W solar panel connected to a DC-DC converter. A new controller was also developed that can operate on input voltages from 100VDC to 55VDC from the solar panel. Simulation and testing showed the new solar powered system can operate for at least 8 hours and has higher oxygen transfer efficiencies than the original model.
This document summarizes the development of a new solar powered water wheel aerator model, the Chaipattana RX-2-3. The original RX-2-2 model required a 2HP induction motor that was difficult to power with solar cells. The new RX-2-3 model uses a 150W universal motor that can be powered by a single 300W solar panel connected to a DC-DC converter. A new controller was also developed that can operate on input voltages from 100VDC to 55VDC from the solar panel. Simulation and testing showed the new solar powered system can operate for at least 8 hours and has higher oxygen transfer efficiencies than the original model.
8. CLFR Trough
Area 1 1.5
Solar Receiver Linear Multi Tube
Method HTF Direct Steam
Tracking Power Lowest Medium
Structure Lightest Medium
Pipe Length Shortest Long
Insulator Min Moderate
Heat Losses Lowest Medium
Universal Joint Leakage None Yes
Receiver Glass Break None Yes
Reflector Twisting None Yes
Operation Time hrs 12 6
Minimum Working
Insolation
500 650
Price Lowest Medium
CLFR Chonburi, Thailand
Karnchanaburi, Thailand
การเปรียบเทียบ CLFR VS Trough
23. การออกแบบโครงสราง • Delta Truss
• Software Analysis
- Linear First Order
- Linear Second Order
- Non-linear First Order
- Non-linear Second Order
- Dynamic Harmonic
- Dynamic Seismic
- Dynamic Modal
- Bucking
- Stiffness
- Own weight
- Shell Stress
- Torsion
- Thermal expansion
- Moment
• Antirust treatment
• Easy to transport and erection
24. ระบบถูกออกแบบตามความตองการของทองถิ่น
Solar Steam Performance @ 1 MW
Temperature Up to 750 F (180 C)
Up to 900 F (200 C)
Pressure Up to 150 PSIa (10 BARa)
Up to 230 PSIa (16 BARa)
Annual Energy per
8 Rais (12,800 Sq.m)
1,500 MWh
@ 1,000 W/m2
สมรรถนะสูง
งายตอการกอสราง
มีความเสถียรสูง
งายตอการเพิ่มกําลังผลิต
งายตอการใชงาน
ใชรวมกับน้ํา (Hydrogen)
ใชรวมกับเชื้อเพลิงชุมชน
ไรมลภาวะ
System Efficiency 15 %
1,500 MWhr/300 = 5 MWhr/day = 1 MW for 5 hr
12,800 m2 @ 1 kW/m2 = 12.8 MWhrThermal = 2 MWhrelectric
Equivalent to 1 MWhrelectric for 10 hours
With Hydrogen Feed could increase fuel consumption 30 %
At Night Time Thermal Energy will use as fuel economizer to
preheat feed water from 80 C to 120 C
Use Back Up fuel 25 % for 8 hours 120 C to 180 C
Use Back Up fuel 100 % for 6 hours 120 C to 180 C