Offshore Wind Turbine

Aim and Objectives

The research methodology that has been established in this research was aimed for the developments of computational methods for the unsteady behaviours, instabilities, and aerodynamic performance of offshore floating wind turbine. Aim and Objectives of this research are as follows:

1. The aim is to simulate the effect of the platform motion on a FOWT performance using practical wind and wave data.

2. The main objective of this research was to illustrate the unsteady aerodynamic effects of a floating offshore wind turbine experiencing the prescribed pitching motion of a supporting floating platform as a function of sinusoidal waves.

3. The objective of the work was to show the different predictions among traditional blade element momentum, general dynamic vortex-wake, and advanced computational fluid dynamics (CFD) approach for a floating offshore wind turbine (FOWT).

4. The three-dimensional, unsteady Reynolds-averaged Navier-Stokes equations with k-ω SST turbulence model will be executed in the CFD software package.

5. Deep study of suitable types of floating platform motion which provides the maximum performance of the wind turbine in all the aspects.

6. A dynamic mesh adaptation technique was used for the accurate prediction of the periodic pitching motion due to platform motion.

Research Contribution

The aerodynamic analysis of air flows over the wind turbine will be performed computationally and all the data will be verified through the results presented by the our client. in this research, we have redesign the profile of the turbine blade for extracting maximum energy from the wind and converting it into electrical energy. We will also study the selection of moving platform which provides the good stability and smooth platform motion during the operation of floating wind turbine

Work Performed

1. The Numerical and computational analysis of unsteady behaviours, instabilities and aerodynamic performance of offshore floating wind turbine will be performed through a different approach.

2. Geometrical modelling has been done for redesigning and modelling of Wind turbine and its parts.

3. Establishments of accurate dynamic mesh adaptation for accurate prediction of the results.

4. The Unsteady Reynolds-Averaged Navier-Stokes equations (URANS) numerical simulations was performed for accurate prediction.

5. Solving all the unsteady aerodynamic performance and its instabilities using URANS model with multi-reference-frame (MRF) motion.

Manufacturing services from ADYAHA WAYS

Services

Wind turbines and solar systems manufacturing services to ensure your goods are manufactured to the highest levels of quality, durability and reliability. Designing and producing parts, materials and assemblies for the wind turbines and solar systems industry demands a systematic approach and expert engineering knowledge. Increasing demands are being placed on quality, assembly, components and modules, and on the development of innovative composite materials. We can help you ensure that everything is tested, certified, compatible and reliable in order to comply with stringent global air safety regulations.

CONTRACT MANUFACTURING

✔ Single window for all manufacturing outsourcing needs

✔ Fully functioning “manufacturing net” , including special processes

✔ Complete Logistics for order deliveries within specified delivery time frame

✔ Manufacturing Information Portal can be created to suit individual customer needs

OPERATIONAL & STRATEGY CONSULTING

✔ Manufacturing Product Strategies

✔ Project Feasibility studies

✔ Project implementation & Productionization support

✔ Roadmaps & Systems for meeting quality, delivery & cost requirements

DESIGN SUPPORT

✔ CFD problem solving through scripting

✔ Aerodynamics: CFD–meshing (structured & unstructured) and Analysis of wind turbines and solar systems

✔ Electrical Load Analysis

✔ Optimization of Systems Installation & Risk Analysis

✔ Structural Analysis

✔ Stress & Load Analysis

✔ Modeling,fabrication, and manufacturing of Allmost all the wind turbines and solar systems Parts