6 research outputs found
Decision Support System for Determining Textile Industry Waste Water Treatment Institution in Web Based Citarum River
The Citarum River is the longest river in West Java. The river participates in the development of the Indonesian economy by 20% of GDP (Gross Domestic Product). In 2018, the citarum river ecosystem structuring survey team found 31 factories in the Bandung Regency region that dumped the waste produced directly into the Citarum River, one of which was the textile industry. In the production process the textile industry uses textile dyes containing azo dyes. The compound has the potential to produce aminobenzen or aniline which causes pollution. The lack of a communal Waste Water Treatment Plant (IPAL) and improper location is a factor that causes the industry to dispose of production waste water directly into the Citarum River. This study aims to support government activities in improving the Citarum River by designing a Decision Support System (DSS) using a website-based Analytical Hierarchy Process (AHP) method to determine the right location to build a communal WW
Decision Support System for Determining Textile Industry Waste Water Treatment Institution in Web Based Citarum River
The Citarum River is the longest river in West Java. The river participates in the development of the Indonesian economy by 20% of GDP (Gross Domestic Product). In 2018, the citarum river ecosystem structuring survey team found 31 factories in the Bandung Regency region that dumped the waste produced directly into the Citarum River, one of which was the textile industry. In the production process the textile industry uses textile dyes containing azo dyes. The compound has the potential to produce aminobenzen or aniline which causes pollution. The lack of a communal Waste Water Treatment Plant (IPAL) and improper location is a factor that causes the industry to dispose of production waste water directly into the Citarum River. This study aims to support government activities in improving the Citarum River by designing a Decision Support System (DSS) using a website-based Analytical Hierarchy Process (AHP) method to determine the right location to build a communal WWTP.
Decision Support System for Determining Textile Industry Waste Water Treatment Institution in Web Based Citarum River
The Citarum River is the longest river in West Java. The river participates in the development of the Indonesian economy by 20% of GDP (Gross Domestic Product). In 2018, the citarum river ecosystem structuring survey team found 31 factories in the Bandung Regency region that dumped the waste produced directly into the Citarum River, one of which was the textile industry. In the production process the textile industry uses textile dyes containing azo dyes. The compound has the potential to produce aminobenzen or aniline which causes pollution. The lack of a communal Waste Water Treatment Plant (IPAL) and improper location is a factor that causes the industry to dispose of production waste water directly into the Citarum River. This study aims to support government activities in improving the Citarum River by designing a Decision Support System (DSS) using a website-based Analytical Hierarchy Process (AHP) method to determine the right location to build a communal WW
Performance Assessment Based on Reliability of Weaving M251 Machine Using Reliability, Availability & Maintainability (RAM) and Cost of Unreliability (COUR) Methods (Case Study at PT Buana Intan Gemilang)
The textile industry is one of industries that has an important role in the national economy. PT Buana Intan Gemilang (BIG) is one of textile industry in Indonesia which uses Weaving machine to produce motif and sajadah fabrics. The purpose of this research is to analyze the reliability of Weaving M251 machine that has the most damage in 2014. To avoid losses due to machine damage, the reliability, availability and maintainability of the machine need to be improved by using Reliability, Availability & Maintainability (RAM) Analysis method. In addition, the total cost caused by RAM problems can be calculated by using Cost of Unreliability (COUR) method. Based on the evaluation using Reliability Block Diagram (RBD) modeling, it is found that the critical subsystem reliability = 44.36% for 144 working hours and the total repair time that the critical subsystem needs to perform in acceptable operational condition , at least in 1 to 70 hours. There are two different forms of availability that have been calculated, therefore inherent availability = 95,546% which is used as leading indicator, and operational availability = 85,572% which used as lagging indicator. as it is compared, lagging indicator does not meet the performance of leading indicator. The total of unreliability cost when the machine is in active repair time = 39,580,689.02 IDR and within downtime = 135,588,452.13 IDR.
Keywords—Cost of Unreliability (COUR), Lagging Indicator, Leading Indicator, Reliability, Availability & Maintainability (RAM) Analysis
Pemodelan Instrumen Pengukuran Tingkat Penerimaan Penggunaan Sistem Informasi Studi kasus: Penerimaan Aplikasi Verifikasi Industri pada Sebuah BUMN
PT ABC is in charge of verifying the industries. The verification process uses an information system that has been instructed by the Ministry of the Republic of Indonesia. But the low level of acceptance of information systems in PT ABC becomes an obstacle. This study aims to explore the causes of low levels of acceptance of information systems in PT ABC by using the acceptance model UTAUT. From UTAUT model, it can be identified factors that influence low acceptance level. The end result of this research is a recommendation for PT ABC regarding the improvement of industrial verification information system. This research propose four items: policy to users, formalizing business processes and increasing awareness about the importance of using information system to user level
Edu-Tourism Through Digital Literacy Based on Science and Technology in Community Empowerment Efforts to Improve the Economy in Banyuwangi Regency
This research aims to explore the role of science and technology-based edutourism in community empowerment efforts for economic improvement in Banyuwangi Regency, East Java. The subject matter studied includes the impact of the application of science and technology in edu-tourism programs on community economic improvement, strengthening the quality of education, and preserving local culture, improving the quality of human resources, utilizing technology in edu-tourism, and its impact on local economic development. The research method used was a literature study, as well as field research to collect relevant qualitative data. The data used includes data on the economy, education, tourism, and science and technology innovation in the education and tourism sectors. Based on the data analysis, this study highlights the importance of utilizing science and technology in the development of edu-tourism programs as an effort to improve the quality of the tourist experience, empower local communities, and strengthen the regional economy. The conclusion of this study shows that the implementation of science and technology-based edu-tourism has great potential to be one of the effective strategies in the effort to empower the community and improve the economy in Banyuwangi Regency. It is hoped that the results of this research can provide input for the government, educational institutions and tourism actors to develop edu-tourism programs in the form of sustainable digital modules and based on website technology to support economic and social development in Banyuwangi Regency