EMPOWERING THE ENERGY INDUSTRY THROUGH THE APPLICATION OF ADDITIVE MANUFACTURING FROM ASSET LIFECYCLE MANAGEMENT PERSPECTIVE
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Abstract
Despite its importance to the world economy, the energy sector has significant difficulties in managing its assets over the course of their useful lives. When it comes to design complexity, time frame, and bottom lines, conventional production methods fall short. Additive manufacturing, often known as 3D printing, has, nevertheless, presented the energy sector with fresh opportunities. From the viewpoint of asset lifecycle management, this thesis investigates how additive manufacturing may strengthen the energy sector.
Additive manufacturing provides precise, optimized designs that increase energy asset efficiency and performance. It makes compact parts with integrated features, optimizing sustainability and reducing running expenses. Reverse Engineering facilitate AM, allows quick prototyping and iterative design, speeding energy technology innovation and market entry.
This thesis elaborates the potential of Additive Manufacturing in energy sector through the perspective of life Cycle Management. Enhancing performance, cutting costs, and accelerated up technology are all things that may be accomplished within the energy business by capitalizing on the benefits offered by additive manufacturing during the design, development, administration, and disposal processes. A printed part, by the use of CAD, will be tested and concerns related to reliability will be address. The purpose of this thesis is to offer a careful examination and envisioning on how AM solutions can potentially use to tackle energy challenges around the globe.