Running head matrix of community partnering opportunities1

1. Running head: MATRIX OF COMMUNITY PARTNERING
OPPORTUNITIES
1
4
DEVELOPMENT OF ENGINEERING LITERATURE REVIEW
Development of Engineering Literature Review
Student’s Name
Institution Affiliation
Course Name
Professor’s Name
Date
Development of Engineering Literature Review
Jang Y-J, Kim H-J, Kim H-G, Kang K-W. Identification of
Deboning Damage at Spar Cap-Shear Web Joints by Artificial
Neural Network Using Natural Frequency Relevant Key
Features of Composite Wind Turbine Blades. Applied Sciences.
2021; 11(12):5327. https://doi.org/10.3390/app11125327
This article discusses the importance and how to ensure
structural integrity according to blade spar. The blade consists
of a higher and an underneath layer that receives load electricity
directly. Loads produced during the engineering process through
the wind turbines can cause damages to the spar cap shear
wedge. The wind turbines manufacture energy by lifting and
exhausting through moving air that is then generated into
energy. The damaged part of the shear can be detected through
inspection, ultrasound detection, machine vision, and vibration
analysis, where the frequency of the structure is measured based

2. on the hypothesis that indicates the natural frequency of a
structural machine changes with stiffness leading to internal
damage.
Beshay, M.E.G., &KARAM (2020) Structural Optimization of
Wind Turbine Blades for Improved Dynamics Performances
DOI: 10.5772/intechopen.91643
This article illustrates the whole optimization of wind turbines
to ensure the development of engineering. The most
fundamental step is to reduce the entire structural mass of the
blade spar under frequency and strengths, then reduce the
overall l vibration level by reducing a frequency or adding the
natural frequency and inserting them at their target values to
avoid unusual occurrences result in damage. Wind energy is
among the most popular renewable energies produced by using
larger and well-structured turbines. This structure stays
fabricated to avoid break down during the rotation process.
Thus causing damage to the structure due to stiffness.
Boudonuit, H., Tarfaoui, M., Saifaoui D., (2018)Structural
Design and offshore wind turbine blade
sparsDOI:10.1177/0309524X211027812
This article illustrates the use of wind turbines and the modified
design of spars. Spars are analyzed beneath loads and on
vibration. Improvement of the structure is critical to make sure
there is stiffness. Different analytical subroutines have been
created for the evaluation of the structure.
Elsayed, E.K, ElDahshan, K.A, El-Sharawy, E.E, Ghannam
N.E.,(2019). Reverse engineering approach for improving the
quality of mobile applications. PeerJ Computer
Science 5:e212 https://doi.org/10.7717/peerj-cs.212
The purpose of this paper is to describe the integrated approach
to come up with measurements and data, for example, from
turbine blades to build valid structures through the reverse
method of engineering, paper it is applied in mobiles.
Cotacallapa-Sucapuca, M., Vega, E. N., Maieves, H. A.,
Berrios, J. J., Morales, P., Fernández-Ruiz, V., & Cámara, M.

3. (2021). Extrusion Process as an Alternative to Improve Pulses
Products Consumption. A Review. Foods (Basel,
Switzerland), 10(5), 1096.
https://doi.org/10.3390/foods10051096
This illustrate the extraction process, which is highly regarded
in manufacturing industries, especially for products with
maximum loading capacity. Extrusion is applied depending on
the end product's shape and load quantity, Thus applied through
comparison of these two approaches.
Jaehnke, M., Gensch, F., & Mueller, S. (2018). Modification of
the anisotropy and strength differential effect of extruded AZ31
by extrusion-shear. DOI: 10.1063/1.5034851
This paper illustrates the modification of extrusion in
engineering. It was drawing using tensile strength of material
limits the number of changes that can be done. There are
different types of extrusions due to diverse applications. These
are hot, friction, and cold.
Chen, C., Wang, T., & Wang, L. (2021). Sensitivity Study of the
Influence of Blade Sectional Stiffness Parameters on the
Aeroelastic Response of Wind Turbines. Frontiers In Energy
Research, 9. doi: 10.3389/fenrg.2021.707082
This paper illustrates the development of and influences of the
blade for the performances of Ventron Engineering Company.
This company has been able to use single blades due to their
strong and heavy helicopter blade. Thereby the company has
developed two options which are section and upgraded extrusion
process.