Exergy and Energy Analysis of Wind-Thermal System

Current wind systems are intermittent and cannot be used as the baseload energy source. The research on the concept of wind power using direct thermal energy conversion and thermal energy storage, called wind powered Thermal Energy System (WTES), opened the door to a new energy system called Wind-thermal, which is a strategy for developing baseload wind power systems. The thermal energy is generated from the rotating energy directly at the top of the tower by the heat generator, which is a simple and light electric brake. The rest of the system is the same as the tower type concentrated solar power (CSP). This paper’s results suggest that the energy and exergy performance of the WTES (62.5% and 29.8%) is comparable to that of conventional wind power, which must be supported by the backup thermal plants and grid enhancement. This cogeneration nature of the WTES system makes this system suitable for using wind power as a direct heat source in several heat-demanding processes such as chemical production. Also, the light heat generator reduces some issues of wind power, such as noise and vibration, which are two main bottlenecks of the wind power technology.

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A Technical, Economic, and Environmental Performance of Grid-Connected Hybrid (Photovoltaic-Wind) Power System in Algeria

The Scientific World JOURNAL ◽

10.1155/2013/123160 ◽

2013 ◽

Vol 2013 ◽

pp. 1-12 ◽

Cited By ~ 1

Author(s):

Djohra Saheb-Koussa ◽

Mustapha Koussa ◽

Nourredine Said

Keyword(s):

Power Systems ◽

Wind Power ◽

Weather Conditions ◽

Energy System ◽

Point Of View ◽

Environmental Study ◽

Economic Point ◽

Wind Power Systems ◽

Greenhouse Effects ◽

Two Parameters

This paper studies the technical, economic, and environmental analysis of wind and photovoltaic power systems connected to a conventional grid. The main interest in such systems is on-site consumption of the produced energy, system hybridization, pooling of resources, and contribution to the environment protection. To ensure a better management of system energy, models have been used for determining the power that the constituting subsystems can deliver under specific weather conditions. Simulation is performed using MATLAB-SIMULINK. While, the economic and environmental study is performed using HOMER software. From an economic point of view, this allows to compare the financial constraints on each part of the system for the case of Adrar site which is located to the northern part of the south of Algeria. It also permits to optimally size and select the system presenting the best features on the basis of two parameters, that is, cost and effectiveness. From an environmental point of view, this study allows highlighting the role of renewable energy in reducing gas emissions related to greenhouse effects. In addition, through a set of sensitivity analysis, it is found that the wind speed has more effects on the environmental and economic performances of grid-connected hybrid (photovoltaic-wind) power systems.

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WIND POWER SYSTEMS WITH HYDROSTATIC TRANSMISSION FOR CLEAN ENERGY

Environmental Engineering and Management Journal ◽

10.30638/eemj.2009.047 ◽

2009 ◽

Vol 8 (2) ◽

pp. 327-334 ◽

Cited By ~ 4

Author(s):

Irina Tita ◽

Doru Calarasu

Keyword(s):

Power Systems ◽

Wind Power ◽

Clean Energy ◽

Hydrostatic Transmission ◽

Wind Power Systems

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Day-Ahead Versus Intraday Valuation of Demand-Side Flexibility for Photovoltaic and Wind Power Systems

SSRN Electronic Journal ◽

10.2139/ssrn.2556210 ◽

2014 ◽

Cited By ~ 25

Author(s):

Ernesto Garnier ◽

Reinhard Madlener

Keyword(s):

Power Systems ◽

Wind Power ◽

Demand Side ◽

Wind Power Systems

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Overview of Frequency Control Technologies for Wind Power Systems

2020 International Symposium on Computer, Consumer and Control (IS3C) ◽

10.1109/is3c50286.2020.00077 ◽

2020 ◽

Author(s):

Chung-Han Lin ◽

Yuan-Kang Wu

Keyword(s):

Power Systems ◽

Wind Power ◽

Frequency Control ◽

Wind Power Systems ◽

Control Technologies

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Operation Characteristics of Zone 3 Distance Protection in Wind Power Systems with Fixed-Speed Induction Generators

International Journal of Emerging Electric Power Systems ◽

10.2202/1553-779x.2764 ◽

2011 ◽

Vol 12 (4) ◽

Cited By ~ 1

Author(s):

Shenghu Li

Keyword(s):

Power Systems ◽

Wind Power ◽

Reactive Power ◽

Flow Analysis ◽

Load Flow ◽

Synchronous Generators ◽

Induction Generators ◽

Load Flow Analysis ◽

Wind Power Systems ◽

Operation Characteristics

The induction generators (IGs) are basic to wind energy conversion. They produce the active power and consume the reactive power, with the voltage characteristics fragile compared with that of the synchronous generators and doubly-fed IGs. In the stressed system states, they may intensify var imbalance, yielding undesirable operation of zone 3 impedance relays.In this paper, the operation characteristics of the zone 3 relays in the wind power systems is studied. With the theoretical and load flow analysis, it is proved that the equivalent impedance of the IGs lies in the 2nd quadrature, possibly seen as the backward faults by the mho relays, i.e. the apparent impedance enters into the protection region from the left side. The undesirable operation may be caused by more wind power, larger load, less var compensation, and larger torque angle.

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Numerically and Experimentally Verified Design of a Small Wind Turbine with Injection Molded Blade

Processes ◽

10.3390/pr9050776 ◽

2021 ◽

Vol 9 (5) ◽

pp. 776

Author(s):

Byunghui Kim ◽

Sang-June Park ◽

Seokyoung Ahn ◽

Myung-Gon Kim ◽

Hyung-Gun Yang ◽

...

Keyword(s):

Numerical Simulation ◽

Power Systems ◽

Wind Turbine ◽

Wind Power ◽

Offshore Wind ◽

Power Coefficient ◽

Manufacturing Method ◽

Small Wind Turbine ◽

Verification Methods ◽

Wind Power Systems

Although mega-watt class onshore and offshore wind power systems are used to generate power due to their cost-effectiveness, small wind power systems are important for household usages. Researchers have focused on aerodynamic characteristics as a conceptual design from their previous studies on Archimedes spiral wind turbines. Here, we verified the design of a small wind turbine AWM-750D (100 W capacity) via both numerical simulation and experimentation. We used commercial code ANSYS CFX for numerical simulation and compared turbulence models and surface roughness for determining the performance. To obtain reliable and robust blades, we analyzed the effective manufacturing method with Moldflow. Through a test with an open-suction type atmospheric boundary layer wind tunnel, we varied wind speed from 4.0 m/s to the rated value of 12.5 m/s and obtained 106 W, equivalent to a power coefficient of 0.205. In addition, we compared the numerical and experimental power vs. rotational speed and found the former is 6.5% lower than the latter. In this study, we proved that numerical simulations can act as design verification methods to predict wind turbine performances and reliable manufacturing. Through our research, we provided the prototype of a small wind turbine with 100 W to act as an efficient electric power supplier for households and also the stable manufacturing process for complex spiral blades using injection molding.

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