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Learn the basics of how a solar hybrid diesel system works
Power from diesel gensets have provided hundreds of gigawatts to industrial companies and states all over the world. Yet the rising costs of fuel and the additional transport and storage charge may put their main electricity source in jeopardy. Also, the power grid in many regions of the world can be unreliable or unavailable. This is why Industrial companies and states are turning to alternative energy sources.
In recent years, PV system and batteries storage cost have steeply dropped making it an affordable energy source for companies in remote areas. Using only a PV system and solely relying on the solar irradiation (even if there’s plenty of it and it’s free), isn’t a safe bet for an industrial consumer as PV production can be inconsistent. This is why Industrials are resorting to PV Diesel hybrid system.
For such a complex energy generation, an energy management system like ePowerControl is required and help to increase the reduction of consumption of fuel depending on the configuration. But before talking about such advantages, let’s dive deeper and see what is it and how it works.
Solar hybrid systems are power systems that combine solar power from a photovoltaic system with another energy source. One of the most common hybrid systems being PV diesel hybrid system, coupling PV and diesel generators, also known as diesel gensets. The diesel generators are used to steadily fill in the gap between the load and the power generated by the PV system. Battery storages can be used to enhance the overall system performance to ensure that the amount of energy meets the demand. An energy management system can also be included to optimize the system as the diesel gensets capacity is limited and the solar energy production is inconsistent.
Depending on the consumer and their situation the main energy can be the grid power, the PV system or the diesel genset. When it is tied to the grid we would talk about on grid system and when it’s isolated, this is an off-grid system. (poor grid to link)
In any case, those energy sources are used to complements one another. Whether the goal is to fill in the gap made by grid failure or to reduce fuel expenditure, the PV system can supply additional energy. Batteries can also be used to store the excess energy to be used later on.
An energy management system like ePowerControl can ensure fuel saving and optimal operation of the overall system.
There are multiples benefits to solar-diesel hybrid system.
Voltage can be driven to unacceptable volatility or out-of-range values by PV solar systems, eOS solutions can be used to to support the integration of distributed PV solar on their grids.
With the right equipment, the energy generated during the day is not wasted or fed back into the grid. It can be stored and used whenever needed.
When the grid fails or when the PV production isn’t enough the system still keep going.
With the help of a EMS like the ePowerControl, hybrid systems can computer control their whole system and balance the available sources of energy. Elum Energy’s engineer can provide a custom control and monitoring solution giving more reliability and more savings as it reduce operating and maintenance cost in the long term.
The use of sustainable resources reduces CO² emissions.
Diesel Gensets provide energy through fuel consumption. They are most of the time used in poor-grid (recurring power outage) or off-grid sites as a backup or the main energy resource. Their operating cost is high because of the constant need for fuel to power all the connected equipment but can even increase because of the fuel cost which fluctuates.
The eOS system is an EMS which can be used to monitor, control, and optimize the performance of the generation or transmission system, being the bridge between the PV systems, the gensets and loads. The ePowerControl can not only ensure maximum security but also minimizes CO2 emissions, fuel and maintenance costs. The ePowerMonitor enables the user to monitor their installations and to analyze the current load and grid condition.
A photovoltaic array is the complete power-generating unit, consisting of any number of PV modules and panels. PV panels are designed to absorb the sun’s rays as a source of energy for generating electricity. They use the solar photovoltaic (PV) technology that converts solar radiation into direct current.
A solar inverter is one of the most important elements of the solar electric power system. It converts the variable direct current (DC) output of a photovoltaic (PV) solar panel into the alternating 240V current (AC).
Batteries can be added to store the excess energy provided by the PV system. Thus being used when there is a lack of or no PV production.
The best use cases for a solar diesel hybrid system can normally be found in remote areas. These places are often off-grid and transport and storage of diesel can be expensive. But be it, poor grid or off-grid, all situations can benefit from a hybrid system.
Feel free to read our case studies showing examples of the benefits of a PV diesel hybrid system:
Elum energy delivers ePowerControl HFS for BIDCO an Industrial Building in Madagascar
Hybrid Power Control for a University Campus in Lebanon
Review of control strategies for hybrid micro-grid systems
In a poor-grid situation where the electricity supplier is unreliable and the power cut regular, ePowerControl controls the PV inverters active power output to achieve minimum diesel generators loading constraint to eliminate the risk of reverse power flows to the gensets during outage events, when gensets are the main source of energy.
In a off-grid, ePowerControl manage all the components of the PV hybrid system and optimize its use-schedule according to the prediction of the solar generation, the cost of fuel and the batteries charging status. The PV system is then used at its maximum capacity and the fuel consumption is considerably reduced.
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