Download - CLFR Thailand
Compact Linear Fresnel ReflectorPower Plant 1 MW
OnPure Solar Mode 24 hours
Operationfor
Soft Land, Medium Insolation and Humid Country By
Solar Space Frame Industrial Co., Ltd.
Bangkok, Thailand
February 8, 2555
In CSP technology such as Trough, Compact Linear Fresnel Receiver,Solar Tower, Solar Dish Stirling, etc required large area as shading effect. Itneeds high insolation such as 1,000 W/m2 min. It is not suitable to operatein humid and medium insolation such as 500 W/m2. As the structure so longit needs good foundation in Soft-land area. It uses high power for trackingas the system has no sound weight balanced. CSP had high thermal lossesdue to long receiver tubes, long deliver fluid tubes, high temperaturethermal storage, and high working temperature. It required very goodthermal insulation. Once the structure to long it cannot prevented fromtwisting so the structure will be large and heavy.
The turbine required high pressure, temperature, and dry steam quality.Also generator required synchronous system when connected to grid. It isnot Easy to transport and assembly. As high technology the operation andmaintenance costs will be high. The material is not easy to find as thesystem use high temperature. We expect the cost of CSP should below 90THB/W, 3.0 US$/W, or 2.1 EURO/W when compare to solar cell. The SolarThermal Dish Steam Turbine with Induction Motor Farm may solve theseproblems and make it possible for commercial.
Intro
Compact Linear Fresnel Reflector
SOLAR THERMAL 30%700 0C 70 BAR
LIGNITE POWER PLANT 70%
SOLAR THERMAL 75%180 0C 15 BAR
BIOMASS 25%
THAILANDExpected Solar ThermalPower Generation Capacity in 20203,500 MW35,000 MTHB/Yr Savings
Future Solar ThermalPower Generation CapacityUSA 20,000 MWCHINA 20,000 MWINDIA 20,000 MW
WORLD
World Sustainable Energy Solution
Develop and deploy solar energy technology to serveour customers’ who need special design for mediuminsolation, soft-land, and humid countries. For globalelectricity and thermal energy needs in a dependable,market-competitive and environmentally responsiblemanner.
Our Mission
Offer comprehensive and fully integrated CSP solutions Lowest cost and most land-efficient CSP technology Solar steam generators offer turnkey solar solutions, including
power block and balance of plant High-volume manufacturing and installation, scalable and
modular Support services in project development and EPC Life-cycle services for long-term operations and maintenance Easy to operate and maintenance Low operation and maintenance cost Operate from medium to high insolation Molten salt storage Direct Steam at saturation or superheat temperature Low tracking power Light weight structure but heavy duty Structure prepare for earthquake, and high wind High efficiency receiver Back up by biomass, biogas, LPG, CNG, Hydrogen (Water) Could operate 24/7 min 300 days/year
Provide breakthrough innovation to lower our customers’ cost of energy
Design for monsoon climate insolation 500 – 1,000 w/m2 and soft-land country
Comprehensive Solar Solutions
Compact Linear Fresnel Reflector (CLFR) Arrays of optically-shaped reflector mirrors Concentrate over 50 “suns” of energy Boiler tubes generate high pressure
saturated and/or superheated steam
CLFR Technology
Steam (Saturated or Superheated)
• Enhanced oil recovery & refining • Mining • Chemical processing & refining • Food processing • Desalination, Absorption Chiller
• Utilities • IPPs
• Utilities • IPPs
Customers
Standalone Solar & SolarHybrid Power Plants
Solar Steam Augmentation Industrial Processing
Applications and Markets
Solar Steam Generators (SSGs) use Concentrated Solar Power(CSP) to drive screw steam turbines or provide process steam
SSG could have dimension upto 365 m (1200’) long, 18 m(60’) high, 36 m (120’) wide depend on power produced
SSG can produce up to 10,000 kg/hr (22,000 lbs/hr) ofsaturated or superheated steam
Solar boiler, ASME S-Stamp qualify. SSG will not overheat, even with coincident failure of offsite
power (feed water and reflector drive) and backup power(reflector drive) at solar noon on the summer solstice
Durable designs of standard materials can be erected rapidlyand deployed at scale
IBC/UBC structural design for Seismic Zone 4 and 145 km/hr(90 mph) wind speed
Key Product Attributes
Standard Code and Design
ASME “S” Stamp Solar boiler standard ASME Boiler & Pressure Vessel Code
Section I, 2007 Edition, 2008a Addenda ASME B31.1 Power Piping Code
2007 Edition, 2008a Addenda Structural Codes
Uniform building code International building code
Authorized Inspector
CLFR Advantages
Most land-efficient solar technology,lowest cost CSP technology
Lower land and grading costs andongoing O&M costs, less time-intensivepermitting
Easier access to contiguous, flat land, canbe built on sloping sites (<3% grade)
Reduced environmental impact (no oilcontainments), lower view shed impact
Easy to erection, operation andmaintenance, less time-intensivepermitting
Scalable by adding solar steamgenerators, greater ability to site atexisting power plants and industrial sites
CSP Reference Plant @ 24 hrsPure Solar Mode @ 550 w/m2
1 MW = 67,200 Sqm = 42 Rai= 6.72 Hectares
Crystalline 84 RaisThin Film 126 RaisSolar Trough 64 RaisCLFR 42 RaisSolar Tower 84 Rais
Modular, Scalable and Deployment
SSG is the building block Each SSG contains one receiver with boiler tubes Receiver heated by reflector rows in segments Segments comprised of factory assembled reflectors and drives Modular System 250 kW, 1MW, 5MW, 10 MW Scalable 1MW, 5MW, 25 MW, 50 MW
Field Assembly
Fast Erection
Rapid field erection Minimal grading required (3% grade acceptable) Simple foundations Steel Truss Structural Receiver (boiler tube and housing) assembled on ground, hoisted,
hydrostatically tested and stamped Assemble reflectors on beams and connect drive
Steam Test
Out of Focus
Aug 25/2011 Cloudy
Row No. 11.30
1 95 109 104
2 130 131 130
3 160 160 160
4 190 191 190
Row No. 13.30
1 135 135 140
2 151 150 155
3 165 165 163
4 173 175 172
Infocus
Oct 4, 2011 11:45-12:00 Cloudy
Row No. Zone1 Zone2 Zone3
1 150 180 190
2 170 210 210
3 210 270 300
4 290 350 380
Boiler Trips rotate reflected light away from receiver High exit pressure High exit temperature
UPS back-up for reflector drive power Passive thermal protection protects against
concurrent loss of Feed water AC mains UPS backup
Worst Case Summer Solstice Solar Noon Boiler is completely hot and dry
Safety
Simple, reliable, robust Design for medium
insolation, soft-land, and humid countries
Saturated or Superheated steam at pressure and temperatures that customers want
High-volume manufacturing and installation, scalable and modular
ASME Section I design Commitment to customers
world-wide Lowest cost, most land-
efficient CSP technology
Summary
Efficiency %Reflector 93Receiver 80Thermal Storage 85Steam Engine 30Condenser 85Generator 85Thermal to Electrical 15
Efficiency
Structure Design
• 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
Linear Receiver
Solar Space FrameLinear Receiver
CSP Type Low Thermal Loss Reliability Scalability Operability High Shock Load Resist HTF as Working Fluid Triple Layer Insulator
Solar Linear Receiver SpecificationSurface Emittance ε 0.03
Surface Absorption αr0.87
Specular Reflectance ρ 0.95
Transmittance of Glass Cover τg0.90
Max. Temperature C 600
Max. Working Pressure PSI 400
Insulation Thermal Conductivity
W/mK 0.05
Min. Direct Insolation 400 W/m2
Max. Direct Insolation 1,100 W/m2
Max. Wind Speed 160 Km/hr
Overall Efficiency 80 %
Descriptions MTHBFoundation 3.00Steel Column 5.00Reflector Support and Mirror 55.00Low Pressure Steam Engine 250 k x 4 20.001 MW XFUR with Controller 3.00Solar Receiver 6.00Solar Tracking 5.00Thermal Storage + Backup Burner 90.00Accessories 15.00Sub Total 202.00VAT 14.14Total 216.14
Cost for 1 MW Pure Solar Mode 24 hrs
Compact Linear Fresnel Reflector
Steam Output 400 PSI 450 C
Solar Steam Performance @ 0.25 MWhr
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 per10.5 Rais (16,800 Sq.m)
1,800 MWh
Performance Constructability Reliability Scalability Operability
System Efficiency 15 % 1,800 MWhr/300 = 6 MWhr/day = 1 MW for 6 hr 16,800 m2 @ 0.55 kW/m2 = 9.24 MWhrThermal = 0.92 MWhrelectric Equivalent to 6 MW/day This could produce 250 kWhr for 24 hrs Back Up fuel 5 - 25 % used to maintain the stability of the
power plant
Performance @ 550 W/m2
Pure Solar Mode 24 hrs
Prototype Steam Engine Tested
Control Panel
Power Transformer for CSP
TASCO Transformer
CSP Type Low Loss Reliability Scalability Operability High Shock Load Resist
Dual Phase Thermal Storage
Solar Space FrameDual Phase Thermal Storage
CSP Type Low Thermal Loss Reliability Scalability Operability High Shock Load Resist HTF as Working Fluid Molten Salt + Graphite for Thermal Storage Integrated Back up Burner Integrated Steam Boiler Triple Layer Insulator
Heat Transfer Fluid
Thermal Salt with Graphite
High Efficiency Steam Engine
Solar Space FrameHigh Efficiency Steam Engine
CSP Type Low Friction Reliability Scalability Operability High Shock Load Resist Low Maintenance Cost Easy to Maintenance High Efficiency
High Efficiency Steam EngineSpecification
Bore 8 InStroke 8.5 inAction SingleNo of Cylinder 4Working Pressure 150 PSISteam Consumption 3,500 Kg/hrPower 380 HP
280 kWInduction Motor 250 kWRPM 1,000Frequency 50 HzCarnot Efficiency 30 %
Induction Motor with Screw Turbine
ABB Induction Motor
Mitsubishi Air Circuit Breaker
CLFR Solar Thermal Power Plant2 MW Pure Solar Mode 24 hrs
with Gassifier Back UpNoan Sard, Udon Thani, Bangkok, Thailand