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Battery Manufacturing Systems for Electric Vehicles - Essay Example

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The paper "Battery Manufacturing Systems for Electric Vehicles" is a good example of an engineering and construction essay. Due to current technological developments in contemporary society, there is a demand for batteries for hybrid electric vehicles. There is a need for qualitative engagements that guarantee the development of batteries that enhance progress in the aforementioned area of interest…
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Extract of sample "Battery Manufacturing Systems for Electric Vehicles"

Battery Manufacturing Systems for Electric Vehicles Name Institution Instructor Date Battery Manufacturing Systems for Electric Vehicles Introduction Due to current technological developments in contemporary society, there is demand in batteries for hybrid electric vehicles. There is need for qualitative engagements that guarantee development of batteries that enhance progress in the aforementioned area of interest (Biller et al., 2014). This literature review shall look at inherent components of battery manufacturing systems and their key features that anchor their operability in industrial contexts. It shall also evaluate all the relevant elements that contribute to success of such systems. In fact, structural functionalities are crucial in battery manufacturing systems for electric and hybrid vehicles. Development of batteries for hybrid vehicles involves numerous steps that are pivotal to their sustainability in an ever changing technological landscape. A credible model for construction of batteries must embody inspection that usually seeks to bolster quality assurance and workability of the device (Biller et al., 2014). Inspection also enables room for realignment and correction of any defective components of the gadgets. In essence, a credible battery manufacturing model must conform to quality parametrical thresholds that govern the overall undertaking in formulation of batteries for hybrid and electric vehicles. The production regime must also offer ample room for innovative thinking and ability to comply with recurrent dictates within the market. In the absence of such considerations, it would be impossible for experts to demystify the inherent needs that suffice with regard to formulation of batteries for electric vehicles (Biller et al., 2014). Besides ensuring quality, inspection seeks to bolster performance and overall inclination towards promoting innovation. As earlier noted, the manufacturing of batteries for hybrid vehicles is increasingly gaining traction due to technological advancement and innovation in contemporary society. It is important for manufacturers to understand their role in ensuring adherence to systems that govern such industrial endeavours. Manufacturers should foster quality in order to support mass production of batteries. Mass production is advantageous because it satisfies demand in the market and also offers an opportunity for manufacturers to leverage on returns (Biller et al., 2014). The manufacture of batteries is a multifaceted issue because on one hand it involves desire for innovative thinking while on the other hand it seeks to guarantee returns for those involved in the trade. The inspection of batteries should gear towards reduction of faults that ultimately affect operability and performance. This literature review seeks to contextualize the overall issue of battery manufacturing systems for hybrid vehicles. This research undertaking shall incorporate resources from this article and finally compare it to similar publications that suffice in the area of interest. It shall compare and contrast the essence and rationale for future research on best practices that embody the design and production of batteries for hybrid vehicles. The information used in this literature review must exude credibility and ability to inspire innovation in diverse areas of engagement in modern society (Biller et al., 2014). Discussion There is increase in technological efforts towards creation of batteries that are resilient and long lasting. This has been occasioned by the rise in demand for automobiles that have electric and hybrid capabilities. This reality has brought forth immense opportunities and challenges that are recurrent both in nature and scope. In order to leverage on the aforementioned dynamics, manufacturers must factor in the need for quality and performance. Devoid of such aspects in the models of battery manufacturing, commercial entities cannot achieve success through high returns and value addition (Biller et al., 2014). In the article under review, its authors analyze the components of a typical battery manufacturing setup. According to them, manufacturing and assembly are the most integral areas that characterize a system in battery making. However, the overlook the manufacturing bit and focus primarily on battery assembly. Assembly involves arranging cells in forms that allow connection through welding. Such individual cells are clustered into packs. The final step involves necessary branding and packing that is followed by transportation to destinations in diverse markets. The process of battery making involves testing and grading in order to guarantee quality and retention of standards in the industry. The most critical areas of testing and grading include surveillance on joint quality, dimension, leakages, and electrical resilience (Biller et al., 2014). It is important to note that quality is a critical condiment with regard to realization of resilience and high performance. Manufacturers should ensure that they incorporate quality during all crucial stages in battery assembly and manufacturing. This article offers a deep foray into the relationship between appropriate design parameters and realization of quality in battery assembly. The coupling effect of design and quality lie in their complementary alternation that ultimately guarantees production of products that satisfy consumer needs in the market (Biller et al., 2014). Quality assurance is an integral aspect in terms of battery design and assembly. In most cases, manufacturers focus on areas that amplify qualitative delivery and distribution of products in the market. By engineering quality products, manufacturers live up to the expectations of industry players and stakeholders. In essence, it is critical for battery makers to institute studies that seek to understand expectations that are the hallmark of the industry. It is inconsistent for battery makers to produce low quality batteries while users of hybrid and electric automobiles expect cells that accentuate quality and high performance (Biller et al., 2014). This article offers empirical facts that point on the relationship between product design and qualitative presentation in the market. It also exhibits diverse opportunities that support furtherance of research undertakings with regard to the subject matter. Battery manufacturing systems require constant research efforts because there is need for improvement and innovation in order to align with competition and growth in the industry. There has been wide research and publication in this area due to the increase in demand for hybrid and electrical automobiles (Biller et al, 2014). Therefore, battery makers should engage in extensive research on best practices and innovations that manifest and characterize modern assembly of batteries for hybrid and electrical automobiles. Production lines also warrant a regular inspection in order to enhance adherence to standards and quality of cells. For instances, decomposition procedures enable manufacturers to analyse the extent of compliance to regulations and expectations in the industry. Through this model, there is evidence of any likelihood for irregularities in the process of developing, packaging, and distributing batteries. Besides battery manufacturing, inspection models are also applicable in other fields such as engine development and actualization (Biller et al., 2014). The main issues in manufacture of battery systems for electric and hybrid vehicles include quality assurance, adherence to industry regulations, and ability to satisfy consumer demands in the market. These key areas are not only important but also central to actualization of current dictates within the engineering and technology landscape. In most cases, manufacturers focus on generating income and fail to realize the importance of quality assurance and consumer satisfaction (Biller et al., 2014). This article has a lot of influence on the overall industry that deals with manufacture of batteries for hybrid automobiles. It affects the research and implementation of ideas that are crucial in developments of products in this sector. It espouses the general importance of marketing operations and communication. The above aspects are important in ensuring success in the market. Although most research efforts revolve around development of batteries for hybrid automobiles, it is necessary for experts to invest more expertise on determining the parameters that characterize other levels of engagement in the industry (Biller et al., 2014). Communication is critical because it sensitises people on availability and rationale for such gadgets in the market. Therefore, appropriate levels of effort should focus on integrating engineering efforts with other aspects of commerce and industrial engagement. This should include considerable effort towards conceptualization and entrenchment of market survey and research. In order to underscore the role of market survey and research, the authors of this article focus on models that support production of high quality and performing batteries for hybrid and electric automobiles (Biller et al., 2014). Conclusion All the underlying issues that are covered in this literature review are crucial with regard to understanding the process of product development and distribution in the market. In most cases, research efforts focus on the production facet and fail to investigate realities that entail later stages such as presence of products in the market. Experts should endeavour to demystify the relationship between industrial efforts and issues that manifest in marketing of the final product. For instance, there is need for elaborate marketing systems that enable presence of batteries in the market (Biller et al., 2014). The commercial chain of distribution usually involves input during all stages that characterize development and distribution of products. The role of research is to enhance identification of strong and weak areas with regard to operations involved in product development. Future research should aim at identifying the symbiotic relationship between product developments and marketing research. Both areas are interdependent because they assist in realization of overall creation of products in the market. There is also need for further research on the future trends with regard to consumer preferences in the industry. For instance, it is necessary for experts to understand the likelihood for innovative efforts in the future (Biller et al., 2014). By understanding the sc cope of future trends and preferences, stakeholders will develop an action plan for creation of dynamic products. Research should continue through collaborative efforts among all players and stakeholders in the automobile industry. This should involve the viability of ideas versus the current and future rate of innovation in the industry. Indeed, this research undertaking contains ideas that are integral in ensuring consistent growth and development in battery manufacturing systems for electrical and hybrid automobiles (Biller et al., 2014). Reference Biller, S., Huang, N., Xiao, G., Li, J., & Ju, F. (2014). “A quality flow in battery manufacturing systems for electric vehicles” IEEE TRANSACTIONS ON AUTOMATION SCIENCE AND ENGINEERING, 11:1, 230-244. Read More
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