Plant & Energy Solutions

You can rely on Ventus³ to help you get the most out of your power plant project by assisting you in optimizing the value of the generated power as well as managing risk throughout its lifecycle.

Greater Assurance at Every Stage

Along with our turbine and service options, Ventus³ Plant & Energy Solutions can help you get the most out of your renewable energy plant’s output while also reducing risk and making sure that your power system runs smoothly all through its lifespan. This way, your power plant ROI is protected as a result.

Modeling and Setting Up the Scene

Ventus³ Energy has amassed thousands of hours of experience over the past years in manufacturing and assembly lines, advanced turbine controls and meteorological data collection from all climates across the world.

Using the insights and skills of modeling and setting up the site, the most efficient and renewable energy plant site layout is identified and documented, and the design for the integration of the electrical grid is detailed. Enhanced transparency at each step assures optimal power output, fewer operational costs, and a more reduced energy cost.

Predesign of the Electrical Work

Protecting Your Financial Investment – Grid connection standards vary widely across the market and can be complicated in several ways. The electrical component’s design for your energy plant considers all of these factors and their challenges which are essential though.
Meanwhile, an Electrical Pre-design is the best technique to create a grid-compliant and efficient energy plant because it identifies grid codes early in the project phase and simulates harsh operating situations.

Optimization of turnkey projects

Building a power plant and then and getting it connected to the grid sometimes comes with very complicated and risky undertakings. But you can rely on Ventus³ to minimize the risks of, engineering, procurement, and construction (EPC) so that you can get the most out of your investment.

Engineering – Procurement – Construction

Bank More & With Ease

– The EPC (Engineering, Procurement, and Construction) at Ventus³ is based on a significant project management knowledge and skills-set on various products, to create tailored project solutions for each energy plant project. Depending on your project requirements, Ventus³ EPC can be configured as a complete turnkey solution or selective support, increasing your project’s confidence and bankability.

Integration of Power Station

Many different grid codes and site constraints have been met by the installation of Ventus³ turbines in differennt countries across the world. To ensure grid code compliance for a specific wind site and to enable hybrid plant integration, the Ventus³ Controller is included.

All power station components may be monitored and controlled using this comprehensive system. As a result, it can be used to construct any control concept that is required to meet the specific grid requirements of a given location.

Regulation and efficiency of the plant

Control of Real-Time Power Plants Regulation

– Each energy-producing asset is precisely monitored and controlled by the Ventus³ Online Controller, which regulates output at the point of common coupling and operations.

In real-time, it’s possible to control the following things:

Voltage, the power factor, or the amount of reactive power
Limitation of the ramp-rate of an active power control system through curtailment, derating, and closed-loop supervision
Frequency modulation
Coordination of fault-ride-through

Integrated Hybridization

Kennedy Energy Park:

Wind, Solar, and Storage

For the first time, Windlab’s international renewable energy firm is developing a utility-scale wind, solar, and battery power storage power plant on the grid. Flinders Shire in Queensland, Australia, is home to some of the best wind and solar resources in the world, making this project ideal.
To achieve an installation to a total capacity of 60.2 megawatts, the first phase of Kennedy Energy Park features Ventus³ V136-3.45-megawatt wind turbines that operate in 3.6-megawatt Power Optimized Mode, 15 megawatts of solar PV power, and 2 megawatts/hour of Lion battery storage, allowing the hybrid power station to be more flexible and increase output and capacity factor.
As part of its hybrid power plant solution for Kennedy Energy Park, Ventus³ collaborated with Windlab to provide consulting services concerning resources for wind and solar, as well as site conditions assessment; project-specific asset integration; control strategies, and extensive analysis for grid code compliance; and EPC in consortium with Quanta Services. An agreement for a 15-year AOM 4000 service from Ventus³ covers the entire power plant, including wind turbines, solar panels, battery energy storage, and electrical equipment, and is included in Ventus³ standard warranty.

Power Station at Terna Energy Park – In 2008, the Louzes Wind Power Plant in Greece was inaugurated, with a capacity of 24 MW of wind power. Hybrid power was created in 2012 when a 1 MW solar plant was connected to the wind farm’s existing interconnection infrastructure.
Ventus³ offered a hybrid energy plant solution for the Louzes Power Plant, which included wind resource consultation, site conditions evaluation, asset integration, grid compatibility, and control techniques. EnVentus³also delivered the hybrid power plant solution. Using Louzes’ Ventus³ Online® Business SCADA platform, both the wind and PV power plants can be managed as a single system. Moreover, this project gives five years of operating experience in regulating energy for the generating of wind and solar energy.

The Power Plant at Lem Kær – The Lem Kær hybrid power plant was created in 2012 by adding two lithium-ion batteries to a current 12 MW wind power station. This is the world’s first massive wind power facility with electrical storage that is connected to the utility grid.

Lem Kær power station was fitted with a hybrid power plant know-how from Ventus³, which featured project-specific planning and correct sizing along with system integration. Advanced control techniques were also devised and implemented. Danish Transmission System Operator has approved Lem Kær’s involvement in the frequency ancillary service markets, which allows the company to earn more money by deploying energy that could rather have been reduced in quality.

Options

Depending on a project’s requirements, more optional features can be added to a turbine or plant. A wind solar power station can be improved in this way so that the investment’s business case can be improved.

Detailed information on environmental, turbine performance, and safety and compliance issues can be found by exploring the subsections that follow. Countries and turbine variants have varying possibilities available.

Environmental Options

Ventus³ Energy Bat Protection Structure – As a result of environmental conditions connected to the chance of a bat presence, the Ventus³ Bat Protection Structure replies with software. The performance of the turbine can be improved while its impact on the environment is reduced by strategically halting it.
The additional option Ventus³ provides to clients in the United States, Canada, etc, is contingent on on-site conditions. Bats are discouraged from approaching the rotor-swept region by the Bat Deterrent System, which uses acoustics.
We have a long history of providing cold weather energy generation that comes with safety and efficiency with the Ventus³ Cold Climate Solutions. When used in conjunction with other technologies like Ventus³ Ice Assessment and Ventus³ Ice Control, they can boost the power plant’s efficiency.

Ventus³ Shadow Detection System – To mitigate how the shadow flicker impacts the surrounding environment while increasing energy production, theVentus³ shadow detection setup is intended to tailor turbine operation.

The revolving turbine blades cause shadow flickers by constantly breaking the sunshine in a certain area. TheVentus³ Energy Shadow Detection System assures optimal turbine power generation while complying with some local needs and preventing shadow flicker on adjacent occupied areas, thanks to its unique configuration for each turbine.

Performance Options

Enhancement of Power Quality – Power Optimization with Ventus³ is a set of options and methods aimed at increasing energy production while still satisfying operating within the same structural, mechanical and electrical parameters.

These are some examples:

Ventus³ Placement Methods
Real time Weather Forecast Analytics
Ventus³ Real Time Sensory Feedback Loop

Safety and Compliance Options

Ventus³ Condition Monitoring System (CMS) – Monitoring of turbine components, structural, mechanical and electrical variables, data processing, and input for incident response coordination are all included in the Ventus³ Condition Monitoring Solution (CMS). All of the systems are constantly monitored by advanced sensors, enabling early detection of any problems.

Ventus3 Operations Center (VOC) is a service extension that utilizes Ventus³‘s CMS and Remote Dashboard System (RDS) to provide dedicated 24/7 wind turbine surveillance and error detection services. With the aid of Ventus³ VOC, you can reduce turbine downtime and improve the business proposition of your investment dramatically by optimizing maintenance planning and logistics.

Ventus³ prevents system fire – Few fire cases occur, but the consequences are potentially dire. As a result, Ventus³ Energy’s fire protection technology has a dedicated engineering team.

The Ventus³ engineers verify that the turbines are developed following the Ventus³ Fire Hazard Risk Assessment following relevant regulations and guidelines for fire and wind turbine use.

Aside from that, fire detection and suppression systems are offered on the Ventus³ platform.

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