Floating Solar is a 10 GW opportunity in India & the ppt is an introduction to Floating Solar with the following content:
a) Floating Solar Market Outlook
b) Benefits of Floating Solar
c) Working Methodology & Design of Floating Solar
d) Case Studies
2. Floating Solar Technology – Market Outlook
Gensol Group
The Global Floating Solar Panels Market is expected to reach US$ 842.0 Million by 2023, expanding at a CAGR (Compound Annual Growth
Rate) of 65.1% during the forecast period 2016 to 2023. However, high cost of installation restricts the use of floating solar panels which in
turn is anticipated to hamper the demand for the floating solar panels during the forecast period (2016-2023).
Global Floating Solar Market Size and Forecast
Source - http://markets.businessinsider.com/news/stocks/Global-Floating-Solar-Panels-Market-Forecast-Analysis-
to-2022-Sub-Market-Regional-Country-Level-Analysis-Research-and-Markets-1001820239
3. Floating Solar Technology Development– Proactive Countries
Gensol Group
• Market target: Countries like Japan,
Singapore, UK (London) and India have
actually limited space to install large
ground mounted PV panels. Several
projects are emerging in these countries;
the biggest one is expected in Japan with
13.7 MWp of installed capacity.
• Customer target: some of these projects
are installed on a hydro plant, typically in
Brazil and Chile.
• Major Market Players
o Ciel & Terre, France;
o Pristine Sun LLC ;
o LG CNS, South Korea;
o Yingli Solar ;
o Sunfloat, Netherlands;
o KYOCERA Corporation etc
Floating solar projects are mostly located in Asia showing high potential for mass floating solar market growth with almost 78% of the
expected worldwide installed capacity. Europe, North and Latin America are still developing pilot farms and expected to be niche
markets for this technology.
4. Floating Solar Technology – An Expedient Alternative
Gensol Group
Floating solar PV power project is an emerging concept which is unfurling both in India and Globally. This can be
established on all types of water bodies like lakes, saltwater lakes, reservoirs, irrigation ponds, dams, rivers etc.
Various advantages of floating solar PV plants over ground
installations:
•Ever increasing power demand & depletion of fossil fuels.
•Leads to shift our focus to renewable energy sources.
•Availability of land – A big concern. Planning to put a floating PV in dam
reservoirs, it can make better use of the reservoir surface, which is anyway
lying idle
•Cooling of Solar panels which makes modules more efficient.
•Tracking - The entire system can easily and cheaply rotate
•Algal bloom - Reduced sunlight penetration lowers the potential for blue-green
algae growth.
•Evaporation - The increased shading reduces evaporation and saves water
6. Working Methodology – Floating Solar PV
Gensol Group
A majority of the installations utilized a floating pontoon constructed either from fiber- reinforced plastic (FRP), Medium Density
Polyethylene (MDPE) or Ferro cement, high-density thermoplastic (HDPE). The solar PV modules were supported on these pontoons through
the use of metal structures and were inclined in a majority of cases to maximize the solar incidence.
8. Major Components of Floating Solar– Mooring/Anchoring
System
Gensol Group
A mooring refers to any permanent structure to which a floating structure
may be secured. A floating structure is secured to a mooring to forestall
free movement of the floating structure on the water. An anchor mooring
fixes a floating structure’s position relative to a point on the bottom of a
waterway without connecting the floating structure to shore.
Mooring System – (Bottom Anchoring)
The anchoring system design is usually composed of:
•Aluminium spreader bars that enable the connection of the mooring lines to the
island and spread the load through the two connection tabs of the floats.
•Cables to link spreader bars to anchors (sized taking into account water level
variation).
•Chains at the end of the cables to adjust length.
•Main and secondary float rows (without PV panel) to secure buoyancy during harsh
winds.
•Anchors to moor the island on the bottom or on shores in order to withstand wind
loads and to reduce movement of the island on the water surface.
9. Major Components of Floating Solar PV – Pontoon System`
Gensol Group
The entire floating solar mounting system encloses
•HDPE floaters, which have passed Hunt sealability test (CN), aging test, UV test, TUV
wind tunnel test and other tests.
•The tensile strength of floaters (2000 daN) is higher than most similar products.
•The solar modules will be easily installed on main floaters by aluminum alloy
clamps, which save time and labor cost. Its service life reaches 25 years.
Patented Hydrelio System
Main Components
• Single floater/Double Floater
• Front Support
• Back Support
• Main Floater
• Main Fastener
• Clamp Kit
• Stainless Bolt kit
A pontoon is flotation structure and has buoyancy enough to float on water
and support a heavy load. The structure is designed such that it can hold
number of panels.
Pontoon or Floating Structures
10. Key Design Features of Floating solar PV
Gensol Group
•Material used should be completely non-toxic, resistant to salt water and alkalis acids, UV rays resistant and
completely recyclable.
•It should easily adapt to changes in water level in reservoirs.
•The floating material entailed would be completely recyclable.
•The structures should withstand high temperature variation from -60°C to 80°C.
•Long life time that is 25 years withstand capability under water.
Major Key Design Features of Floating Solar PV are enlisted below:
•Resistant to ultra violet radiation & corrosion: The structures are made of HDPE through blow mold manufacturing
process. Due to their highly resistant composition, it can withstand for more than 20years.
•Extreme wind resistant: HDPE Structures floating solar power can withstand up to 118 m/hr winds
•Safe mounting & maintenance: It has been designed to be easily and quickly deployed. The secondary floats allow
easy access to the panels for maintenance and cleaning.
•Cost-effective: Cost is less per module compared to zinc coated stainless steel structures. The other manufacturing
benefits of HDPE structures are easy to install, i.e. easy to adapt to any electrical configuration.
• Scalable from low to high power generation, no need of heavy equipment for installation of HDPE structures.
Recycling is possible for HDPE materials.
Properties of High-density polyethylene (HDPE):
11. Technical Details of Floating Material
Gensol Group
Parameters Description
Installation Site Lakes, reservoirs and other water surface
Wind Load 60m/s (TUV Wind Tunnel Test)
Snow Load 1KN/M2
Module Type Framed or Frameless
Module Orientation Landscape
Material HDPE & PP
Clearance above Water 250-300mm
Fastener Zinc-Nickel Alloy & PP
Clamp Anodized
Loading Capacity
Main Floater 77 KG/m3 , Maintenance Channel 172
KG/m3
12. Different Types of Floating Solar Technologies
Gensol Group
Technology Technology Provider Key Point of Technologies
Aquasun Solaris Synergy in partnership
with EDF
• Lightweight modules made of plastic fiberglass
• The modules are covered with a reflective film, with a curvature that
concentrates the sunlight on a median ramp covered with photovoltaic cells
• Tracking system on board
Hydrelio Ceil and Terre • Light weight modules made of HDPE and fibreglass
• Secondary floated to facilitate the access to the panel (maintenance part)
Floating Tracking
Cooling Concentrator
Scienza Industria Tecnologia
(SIT)
• Tracking system
• Adapted cooling system (higher efficiency)
Liquid Solar Array
(LSA)
Tata Power Sungency • Sun tracking
• Storm protection mechanism
Floatovoltaics SPG solar • Single axis tracking solar system
• Cost competitive
13. Floating Solar PV Project – Case Studies (1/4)
Gensol Group
Australian floating solar innovator Sunengy has completed its first pilot plant
in India on a hydropower storage dam owned by The Tata Power Co Ltd, India’s
largest private utility.
LSA adds solar as a secondary resource and taps directly into the under utilised
transmission grids at hydropower storage dams, with the hydropower turbines
providing full backup for the solar power. This gives tremendous potential to
dramatically increase the energy generation capacity of many of the world’s
hydro facilities without straining additional water resource, or occupying any
land area
Drawbacks -CPV systems are significantly affected by poor air quality, reducing
output up to 40% at certain times. There has also been an unexpected
development in that while observing some of the difficulties with the CPV
system specific to the hazy conditions in India
Source -http://sunengy.com/
Liquid Solar Array Technology
Sunengy is the first solar company in the world to propose and implement floating solar collectors designed specifically for
large-scale use in hydro-electric dams and other still water bodies.
LSA Pilot Plant On Sun In Indian Hydro Dam
14. Floating solar PV Project – Case Studies (2/4)
Project Partners
Far Niente Winery – Owner
SPG Solar & Thompson Technology Industries (TTI)
– System Installer
Sharp Solar – Solar Panel Provider
Project Details
Capacity – 400 kW/477.57 kWp
Total Acreage – 100 Acres
Modules – 208 Poly Cry. modules with 13% effi.
Inverter - 1 SatCon AE-500-60-PV-A (480V)
Source : https://inhabitat.com/floatovoltaics-far-niente-wynerys-floating-solar-power
FLOATOVOLTAIC™ Solar Array
Floatovoltaics Technology is a closed foam filled HDPE plastic resistant to corrosive
environment, engineered to withstand 85 MPH winds and a minimum of 12” wind
generated waves. Structural steel frame is galvalume and hot-dip galvanized coated
and designed specifically to minimize wear in fresh water environments. Proprietary
mooring system distributes the loads to minimize point loading and wear
Far Niente Winery, California
Gensol Group
15. Floating solar PV Project – Case Studies (3/4)
India’s First 10 kW Floating Solar Power Plant – West Bengal
1) Location – Rajarhat ,West Bengal
2) Module Type- Eldora Prime Series Polycrystalline,250 Wp (40 Nos)
3)Inverter Type – Kaco – made inverter
4) Space Coverage – 0.025 Acres
5) Annual Energy Yield -1765.30 kWh 6) CO2 Savings – 2942.167 Tons/Yr
Key Features of the project
The solar power facility was designed using 1kW fibre glass PV modules
to produce a minimum of 14MWh of solar power annually. The floating
mechanism functions successfully with the system anchored firmly to the
bottom of the lake and connected to the grid using submersible cables.
https://www.vikramsolar.com/case-studies/floating-solar-power-plant-in-west-bengal-india/
Owner
Arka Renewable
Energy College
Installation
Type
Grid
Connected
Installer
Vikram Solar
Ltd
17. Floating Solar PV - Indian Scenario
Gensol Group
Great potential for floating PV in India
• Availability of water bodies and land issues are main accelerators for floating PV solar panels.
• Increased efficiency of floating PV over land PV installed will attract more investment due to better
returns.
• Availability of trained manpower and Govt. Policies have boosts the confidence of investors
• Stable floating PV platforms results in minimum operation and maintenance cost.
The 500 kWp (kilowatt peak) solar plant of the KSEB
1) he Solar Energy Corporation of India (SECI) on Monday published an enticing 10 GW floating
solar tender that aims to boost this underdeveloped portion of the nation’s solar sector over the next
three years.
2) National Hydro Power Corporation (NHPC) has also announced plans to set up 600 megawatts of
floating solar power project at the 1,960 MW Koyna hydro power project
3) The 100 kWp (kilowatt peak) floating solar PV plant has been indigenously developed as a part of
Union Government flagship ‘Make In India’initiative...
4) India s private energy giant Tata Power has joined with Australia s Sunengy Pty Limited for a US$1
million pilot project to build a solar powered electricity generation plant that will float on water the
companies announced
18. About Gensol
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partner to Ministry of New & Renewable Energy and installs kW scale Solar Rooftop systems on a turnkey basis with more than 42 MW of cumulative installations across the country.
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