Solar Energy

Dish Solar Heating Products

Solar dish concentration tracking system, is a dual-axis, parabolic point focusing automatic tracking, all-weather control system, with high tracking accuracy, high concentrating ratio, flexible arrangement, unattended characteristics, and it can not only be used in Sterling’s power generation system, but also can be widely used in solar thermal utilization

Optical Accuracy

Shape surface error: 0.5 milliradians;
Slope error: 0.5 milliradians;
Specular reflectivity: more than 94%.

Tracking Accuracy

Tracking mode: sun-chasing tracking,
Two-axis tracking;
Focusing mode: point focusing;
Focusing ratio: more than 1200 times;
Tracking accuracy: 0.5 milliradians/second.

Automatic Operation

Full-automatic tracking system, DNI online monitoring, adopting automatic system switching between open-loop and closed-loop to achieve all-weather automatic tracking and safety protection.

Maintenance-Free Within the Year

Adopting remote fault diagnosis, troubleshooting, unattended, maintenancefree within the year, periodic inspection and maintenance system.

Dish Stirling Solar Power Generation System

Solar Thermal Storage and Continuous Heating System

The continuous heating system of solar collection + storage, with multi-functionality, and the system can fulfill the following usage scenarios: First, heat storage; second, generating industrial steam; third, generating industrial hot water; fourth, refrigeration. The above functions can also be used in combination to realize multi-functional supply.

Continuous heating of solar energy requires heat storage, which can take a variety of heat storage methods: molten salt heat storage, thermal oil heat storage, solid heat storage, water working fluid heat storage and so on.

The system can do 24 hours continuous heating, and can completely replace the existing gas heating system to realize the replacement of new energy.

Solar Dish Heat Collection, Storage and Continuous Power Generation System

System description:

  1. This system is applied to megawatt-level distributed solar thermal power generation system, which can be used as self-supply power supply for oilfields, replacing and solving the power supply line with insufficient power supply from grid or large voltage drop;
  2. The system is divided into three parts :(1) Solar thermal collector parts; (2) Heat storage and power generation island part; (3) Dish-type Stirling power generation part.
  3. The heat storage and power generation island part serves as the base load power generation of this system, which can be used for peak load balancing;
  4. The system has high power generation efficiency, large base-load power generation capacity and strong peak shifting capability;
  5. The power generation island can take the Rankine cycle steam turbine generator set, or Stirling generator set (depending on the power of the generator);
  6. The system can save 30% of water resources;
  7. The system has no special requirements for the land.

Multi-energy Complementary Integrated Energy System

This program can consume the “abandoned wind” and “abandoned light” power from renewable energy sources such as wind energy and photovoltaic energy, and can also consume the grid’s low-valley power, which can be used to increase the heat storage and perform peak power generation when required by the power grid.

1

It can form a base load power generation system dominated by solar thermal energy to meet the peak shifting demand of the power grid

2

It can consume the surplus electricity of photovoltaic and wind power generation which cannot be consumed by the power grid

3

The investment scale of this system can be adjusted according to the size of “abandoned wind” and “abandoned photovoltaic” power consumption, which can significantly save investment costs

4

This technical solution route has been practiced with various individual technologies and relevant data has been obtained, comparability Is very noticeable