Leah C. Kunkel scite author profile

Leah C. Kunkel

5Publications

23Citation Statements Received

11Citation Statements Given

How they've been cited

How they cite others

155

Affiliations

Arizona State University, Saint Louis University

Publications

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Structural Analysis of Biologically Inspired Small Wind Turbine Blades

Seidel

Jayaram

Kunkel

et al. 2017

Int J Mech Mater Eng

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Background: Renewable energy resources are becoming more important to meet growing energy demands while reducing pollutants in the environment. In the current market, wind turbines are primarily restricted to rural use due to the large size, noise creation, and physical appearance. However, wind turbines possess the ability to run at any time of the day. Horizontal axis wind turbines remain the most widely used, but there is significant room for improvement in vertical axis wind turbines. Methods: While vertical axis wind turbines are not reaching the same level of efficiency of horizontal axis wind turbines, there are significant benefits to researching improvements. One of the main benefits is to make use of vertical axis wind turbines in urban settings. In order to improve the efficiency of the vertical axis wind turbine, a biological approach was taken to design blades that mimic the shape of maple seeds and triplaris samara seeds. This approach was taken because due to its geometrical properties, typically extra lift is generated. Results: The results obtained through FEA simulations were consistent with the expected results for the application that was considered. The results obtained provide valuable insight for engineers to iterate and design optimum wind turbine blades taking advantage of biological phenomena applied to conventional airfoils. Conclusions: The purpose of this paper is to provide structural analysis details into the design of a vertical axis wind turbine blades that mimic the geometry of maple and triplaris samaras seeds.

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100% renewable electricity policies in U.S. cities: A mixed methods analysis of adoption and implementation

2022

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Improving site assessment tools in emerging technologies: The case of highway vertical-axis wind turbines in the United States

Kunkel

Hall

2020

Energy Research & Social Science

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Small towns with big plans: Municipal adoption of 100% renewable electricity policies

Breetz

Kunkel

Vallury

et al. 2022

Energy Research & Social Science

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Localizing energy decision-making through community choice: The Utah community renewable energy act

Kunkel¹

2021

The Electricity Journal

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Leah C. Kunkel

Structural Analysis of Biologically Inspired Small Wind Turbine Blades

100% renewable electricity policies in U.S. cities: A mixed methods analysis of adoption and implementation

Improving site assessment tools in emerging technologies: The case of highway vertical-axis wind turbines in the United States

Small towns with big plans: Municipal adoption of 100% renewable electricity policies

Localizing energy decision-making through community choice: The Utah community renewable energy act

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