Seahorse Technology

Land-Neutral solar PV power plant with a fixed tilt, aim to maximise cost-effectiveness.The Seahorse technology is completely standardised and prefabricated, with a predesignated tilt and requires no on-site construction.

Evaporation
loss control

Energy
Generation

Space
Optimization

Cost
Optimization

Read More
Stingray Technology

Land-Neutral solar PV power plant with a fixed tilt, aim to minimise losses due to evaporation.The Stingray technology is completely standardised and prefabricated, with a predesignated tilt and therefore requires no on-site construction.

Evaporation
loss control

Energy
Generation

Space
Optimization

Cost
Optimization

Read More
Dual Axis Technology

Land-neutral solar PV power plant equipped with dual-axis tracking mechanism.The power plant is a floating structure adaptable for water-based operation that holds multiple arrays of solar photovoltaic modules.

Evaporation
loss control

Energy
Generation

Space
Optimization

Cost
Optimization

Read More
Our Innovation & Design

With the aim of adding value in the process of harnessing solar energy, the co-founders initiated the innovation process in 2013. The innovation process, with an approach focused on optimal utilisation of available natural resources, had dual objectives of creating a unique product and of establishing new benchmarks for the contemporary solar industry

1 Innovation in Design

 Hierarchal hexagonal grid
 High Stability
 Easy handling and fast installation
 Prefabricated
 Cost effective dual axis
 Tracking the sun for maximum yield
 Modular design

2 Innovation in Material Used

 Safe in contact with drinking Water
 High impact strength
 Guaranteed Unsinkability
 Recyclable
 Low embedded energy
 Environmentally Benign
 UV Stabilised

seahorse technology

A FSPV power plant with a fixed tilt with an aim to maximise cost-effectiveness and space efficiencies. This technology delivers the highest enegy density and has been optimised for large-scale deployment which aims at delivering energy at lowest costs. The Seahorse technology, like the Stingray technology is completely standardised and prefabricated, with a predesignated tilt (designed for very high wind speeds) and requires no on-site construction. A FSPV power plant based on this technology can be installed and commissioned very efficiently, also in about 0.25 Months/MWp (excluding lead time of procurement).

Evaporation
loss control

Energy
Generation

Space
Optimization

Cost
Optimization

Seahorse Technology Advantages

Optimized for cost and space efficiencies

Standardized, Pre-fabricated and modular

  • Industrialized process with strict quality control
  • Robust supply chain
  • Ability to handle large volumes; Capacity – 60 MWp/annum

Guaranteed Unsinkablity

  • Closed cell cellular foam filled with less than 5% moisture retention
  • Substantially reduces O&M costs
  • Secures assets for long term

Aerodynamic Design

  • Enhanced air circulation that facilitates Natural Evaporative Cooling
  • High Stability during high wind loads (designed for wind loads of 55 m/s)

Easy handling and fast installation

  • 2.5 kWp/person/hour

High packing density

  • 1 MWp requires 13 – 15 standard 40’ containers
stingray technology

Stingray is a FSPV technology with a fixed tilt with an aim to minimise losses due to evaporation. The power plant based on this particular technology, is a premium product and is extremely beneficial for water conservation and may be installed in water scarce areas and in areas where water losses due to evaporation affects revenue streams. It has been designed and developed keeping in mind the needs of specific clients – such as industries with large water bodies that includes thermal power plants, steel plants, chemical industries. The Stingray technology is completely standardised and prefabricated, with a predesignated tilt and therefore requires no on-site construction. As a result, a FSPV power plant based on this technology can be installed and commissioned very efficiently, in about 0.25 Months/MWp (excluding lead time of procurement).

Evaporation
loss control

Energy
Generation

Space
Optimization

Cost
Optimization

Stingray Technology Advantages

A niche product designed to counter evaporation

Standardized, Pre-fabricated and modular

  • Industrialized process with strict quality control
  • Robust supply chain
  • Ability to handle large volumes; Capacity – 10 MWp/annum

Guaranteed Unsinkablity

  • Closed cell cellular foam filled with less than 5% moisture retention
  • Substantially reduces O&M costs
  • Secures assets for long term

Aerodynamic Design

  • Reduced exposure of Water Plane Area to counter evaporation
  • High Stability during high wind loads (designed for wind loads of 55 m/s)

Easy handling and fast installation

  • 3 kWp/person/hour

High packing density

  • 1 MWp requires 15 – 17 standard 40’ containers
Dual Axis technology

Our innovation, a Dual-Axis-Tracking (DAT) Floating Solar PV power plant generates ~ 40% higher energy as compared to land-based solar power plants. The floating structure constitutes a large outer ring, a toroidal wave attenuator that floats on water serving dual purposes of – [a] acting as a first line of defence against turbulence, both from wind and waves, and [b] providing guidance for east-west azimuthal tracking. The outer ring is appropriately anchored such that its maintains it’s spatial coordinates even in case of heavy winds, strong water currents or water level fluctuations. Enclosed within the toroidal wave attenuator is a modular hierarchical hexagonal honeycomb grid that is free to rotate as per the changing azimuth of the sun. The hexagonal grid supports a plurality of rows of mounting structure that house the solar photovoltaic modules. A series of motors attached to each array of solar panels regulates their vertical position, such that the tilt of the panel is equivalent to the altitude angle of the sun, while a propulsion system fitted onto the hexagonal grid is responsible for keeping the panels in line with the azimuth of the sun. The resultant dual axis tracking tracking of solar PV modules substantially enhances energy generation up to 30%. Further energy gains, within a range of 10% - 15%, occur due to natural evaporative cooling of solar PV modules. The innovation requires no land acquisition, does not suffer from soiling losses and losses in generation due near shadings.

Evaporation
loss control

Energy
Generation

Space
Optimization

Cost
Optimization

Dual Axis Technology Advantages

Designed for maximum output

Standardized, Pre-fabricated and modular

  • Industrialized process with strict quality control
  • Robust supply chain
  • Prototype tested and pilot undertaken

Guaranteed Unsinkablity

  • Closed cell cellular foam filled with less than 5% moisture retention
  • Substantially reduces O&M costs
  • Secures assets for long term

Aerodynamic Design

  • Weather Response System – Panels go flat in heavy wind loads
  • High Stability during high wind loads (designed for wind loads of 55 m/s)

Easy handling and fast installation

  • 2 kWp/person/hour

High packing density

  • 1 MWp requires 18 – 20 standard 40’ containers