six sigma approach
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2021 ◽  
Vol 2 (2) ◽  
pp. 38
Author(s):  
Steven Chandra ◽  
Prasandi Abdul Aziz ◽  
Wijoyo Niti Daton ◽  
Muhammad Rizki Amrullah

Increasing demand of oil in Indonesia is in contrast with the decreasing oil production every year. Enhanced oil recovery (EOR) has become one of the most favorable method in maximizing the production of mature fields with various applications and research has been done on each type, especially microbial EOR (MEOR). “X” field is a mature oil field located in South Sumatra that has been actively producing for more than 80 years and currently implementing MEOR using huff and puff injection. However, there are some potential risks regarding MEOR processes that may inhibit the production by damaging the well’s tubular system, particularly microbially induced corrosion (MIC). This study reviews the risk mitigation and mapping to prevent corrosion on tubular system during MEOR huff and puff processes, equipped with the approach of Lean Six Sigma.The mitigation and mapping process follow the framework of define, measure, analyze, improve, and control (DMAIC). It starts with defining the problem using supplier-input-process-output-customer (SIPOC) diagram after all the field data necessary has already been collected, then measuring the corrosion rate model using ECE™ software as well as conducting sensitivity analysis of the fluid rates. The analyze phase involves constructing fishbone diagram to identify the root causes, comparison with industry’s specification and standard, and analysis of chromium effect on corrosion rates. Further simulation is conducted to support the analysis and to ensure the improvements and sustainability of the design selection.Based on the simulation results, the normal corrosion rate ranging from 0.0348 – 0.039 mm/year and the pH is around 4.03 – 5.25, while the ±30% fluid rate sensitivity results shown that the change of water flowrate is more sensitive than oil flowrate with the corrosion rate approximately 0.0275 – 0.048 mm/year. The fishbone diagram identifies that material selection and environmental condition as the main root causes, then corrosion resistant alloy (CRA) is used in the tubing string to prevent corrosion in the future by using super 13Cr martensitic steel (modified 2Ni-5Mo-13Cr) as the most suitable material. Further simulation on chromium content supports the selection that corrosion rate can be reduced by adding the chromium content in the steel. The completion design is then capped with choosing the Aflas® 100S/100H fluoro-elastomer as the optimum material for packer and sealing. Overall, the Lean Six Sigma approach has been successfully applied to help the analysis in this study.


2021 ◽  
Vol 15 (4) ◽  
pp. 510-517
Author(s):  
Atanas Kochov ◽  
Aleksandar Argilovski

This paper presents the improvement of the procurement process for raw materials in a real manufacturing company supported by the Lean Sig Sigma as structured approach to deliver the improvement. The manufacturing company that is a subject of this paper have received a significant amount of complains regarding the internal purchase orders approval process and the overall procurement process of the company from both internal employees and external vendors and contractors. Considering that the company is procuring the raw goods from selected vendors, therefore the entire manufacturing plan depends on these materials, the company decided to improve this process trough Lean Six Sigma. The Lean Six Sigma approach was selected in order to obtain the improvement in a short time, based on indicators that were previously analyzed and prioritized. The paper focuses on simplifying of the process trough decreasing the number of mandatory steps.


2021 ◽  
pp. 088636872110451
Author(s):  
Pankaj M. Madhani

Human resource (HR) is the backbone of an organization and hence, there is need to build its underlying capabilities for effective service delivery. Six Sigma aims at improving the effectiveness of processes by collecting data and then using advanced statistical analysis tools to solve the problems. Six Sigma deployment in HR provides consistency in operations and leads to quality excellence by providing better services at lower costs. Six Sigma approach adds more science to the art of HR, which is used to measuring outcomes it can control, rather than those it can influence. Six Sigma deployment in HR transforms typical HR practices with a proactive approach and leads to better, faster and more cost-effective services; improve internal customer satisfaction and greater motivation and job satisfaction of employees. The research develops various framework for Six Sigma deployment in HR and provides case studies of successful Six Sigma deployment in various areas of HR.


2021 ◽  
Vol 39 (10) ◽  
Author(s):  
Saad Aziz Al-Otaibi

Six Sigma is a business process improvement method that aims to discover and eliminate the causes of defects, mistakes, and errors. Six Sigma is a process improvement methodology that focuses on critical processes that result in unacceptable defects to customers. This study aims to Implementation of Six-Sigma methodology to achieve a competitive edge in Saudi universities. For this purpose, we used the Scopus database for the data extraction; the PRISMA statement 2015 inclusion and exclusion framework is used to select data. Six sigma keywords are used in the search bar, and 12279 results are shown and follow the screening process. The final 48 articles and reviews are used for the systematic literature review after the detailed screening process. The results have classified the literature into three significant categories, organizational performance, Lean Six Sigma, and higher education. The Saudia Arabia universities are also focusing on the collaborative research work with the different regional and international universities for the Six Sigma implementation in universities. The study's findings of the study demonistrating that universities in Saudia are focusing on developing the education structure and methods using the Six Sigma methodology and Lean Six Sigma approach.


2021 ◽  
Vol 16 (3) ◽  
pp. 307-325
Author(s):  
H.H. Purba ◽  
A. Nindiani ◽  
A. Trimarjoko ◽  
C. Jaqin ◽  
S. Hasibuan ◽  
...  

Industrial sustainability is an important attribute and becomes a parameter of the business success. Quality improvement with an indicator of increasing process capability will affect productivity improvements and lead to industrial competitiveness and maintain industrial sustainability. The purpose of this paper is to obtain a relationship between the consistency of the DMAIC phase to increase the sigma level in productivity improvement and industrial sustainability. This paper applied for a systematic literature review from various sources of trusted articles from 2006 to 2019 using the keywords “Six Sigma, Productivity, and Industrial Sustainability.” A matrix was developed to provide synthesis and summary of the literature. Six Sigma approach has been successful in reducing product variation, defects, cycle time, production costs, as well as increasing customer satisfaction, cost savings, profits, and competitiveness to maintain industrial sustainability. Extraction and synthesis in this study managed to obtain seven objectives value that found a consistent relationship between the DMAIC phase of increasing sigma levels, productivity, and industrial sustainability. The broad scope of Six Sigma literature is very beneficial for organizations to understand the critical variables and key success factors in Six Sigma implementation, which leads to substantial long-term continuous improvement, the value of money, and business.


2021 ◽  
Author(s):  
William F. Quintero-Restrepo ◽  
Brian K. Smith ◽  
Junfeng Ma

Abstract The efficient creation of 3D CAD platforms can be achieved by the optimization of their design process. The research presented in this article showcases a method for allowing such efficiency improvement. The method is based on the DMADV six sigma approach. During the Define step, the definition of the scope and design space is established. In the Measure step, the initial evaluation of the platforms to be improved is done with the help of a Metrics framework for 3D CAD platforms. The Analyze Step includes the identification and optimization of the systems’ model of the process based on the architecture and the multiple objectives required for the improvement. The optimization method used that is based on evolutionary algorithms allows for the identification of the best improvement alternatives for the next step. During Design step of the method, the improvement alternatives are planned and executed. In the final Verification step, the evaluation of the improved process is tested against the previous status with the help of the Metrics Framework for 3D CAD platforms. The method is explained with an example case of a 3D CAD platform for creating metallic boxes for electric machinery.


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