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All Journal TAPAK (Teknologi Aplikasi Konstruksi) : Jurnal Program Studi Teknik Sipil Academia Open Journal La Multiapp Jurnal Spesialis Teknik Sipil (JSpTS)
Muhammad Alvan Rizki
Universitas Muhammadiyah Sidoarjo
Aerospace Engineering Agriculture, Biological Sciences & Forestry Arts Humanities Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Earth & Planetary Sciences Economics, Econometrics & Finance Engineering Environmental Science Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Mechanical Engineering Medicine & Pharmacology Physics Social Sciences Transportation Other

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EVALUASI GREEN CAMPUS BERBASIS BIM Muhammad Alvan Rizki; Hendri Hermawan; Atik Wahyuni
TAPAK [Teknologi Aplikasi Konstruksi] : Jurnal Program Studi Teknik Sipil Vol 12, No 2 (2023): Mei 2023
Publisher : Prodi Teknik Sipil Universitas Muhammadiyah Metro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24127/tp.v12i2.2612

Abstract

Anomali iklim merupakan proyeksi lanjutan pemanasan global, yang memberikan dampak langsung pada suhu bumi. Maka akan berdampak kepada manusia yang tinggal di bumi. Meninjau fenomena tersebut, kampus Universitas Muhammadiyah Sidoarjo (UMSIDA) perlu  mengambil peran untuk kepentingan bersama, dengan cara melakukan perubahan iklim skala mikro. Merubah iklim skala mikro adalah salah satu metode dalam menereapkan konsep Green Campus, yaitu melalui metode pendekatan penilaian Greenship pada tahap Rekognisi Desain yang ditetapkan oleh Green Building Council Indonesian (GBCI). Rekognisi desain mengimplementasikan Building Information Modelling (BIM) pada pemodelan 3D. Hasil yang didapatkan Kampus 3 UMSIDA mendapatkan predikat Bronze. Dapat disimpulkan perlu Rekomendasi Teknis dengan total indeks 61,17 agar mencapai predikat platinum
GPT AI Chat: Revolutionizing Education for Civil Engineering Student Performance Rizki, Muhammad Alvan; Wardana, Mahardika Darmawan Kusuma; Hermawan, Hendri
Academia Open Vol 8 No 1 (2023): June
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/acopen.8.2023.6397

Abstract

This literature review investigates the influence of Chat GPT AI on the effectiveness of the civil engineering curriculum and student performance. The study explores the use of Chat GPT AI in education and emphasizes the significance of rubric assessment in evaluating student achievements. The findings reveal that incorporating Chat GPT AI can significantly enhance the learning process by providing prompt and accurate responses to students' queries. However, the study emphasizes the continued importance of human interaction in the assessment process, as rubric assessment remains crucial for evaluating student performance and fostering motivation for better outcomes. The implications underscore the need to align the curriculum with industry standards and leverage technology to enrich the learning experience. These findings hold potential for educators and policymakers seeking to enhance educational quality and produce highly qualified civil engineering graduates. Highlights: Chat GPT AI: Improving Efficiency - The study explores the impact of Chat GPT AI in civil engineering education, highlighting its potential to enhance the efficiency of the learning process by providing quick and accurate answers to students' questions. Importance of Rubric Assessment - The research emphasizes the crucial role of rubric assessment in measuring student performance and motivating them to achieve better results, highlighting its significance alongside the integration of technology. Adapting Curriculum and Utilizing Technology - The study highlights the importance of adapting the curriculum to meet industry needs and standards, while also leveraging technology, such as Chat GPT AI, to enhance the learning experience and improve the quality of civil engineering education. Keywords: Chat GPT AI, civil engineering education, curriculum efficiency, student performance, rubric assessment.
Solar Panel Implementation for Household Electricity in Indonesia: Environmental and Economic Implications Pradana, Nico Cahya Pradana; Rizki, Muhammad Alvan; Wahyuni, Atik; Harsono, Budwi
Academia Open Vol 8 No 2 (2023): December
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/acopen.8.2023.7860

Abstract

This study explores the potential of solar energy as a sustainable alternative to coal-based electricity generation in Indonesia, aiming to address environmental concerns. It assesses the feasibility of household-level solar panel adoption for reducing electricity costs and enhancing energy self-sufficiency. Using photovoltaic technology, the research examines solar energy conversion and battery storage, focusing on optimal daylight utilization. Findings reveal substantial cost-saving prospects for households and stress the environmental benefits of decreasing reliance on conventional electricity sources. The study highlights the significance of public awareness and government support for solar panel adoption, emphasizing its role in economic stability and resource allocation to productive sectors. It advocates for empowering and educating the public about solar panel usage, which not only lowers electricity expenses but also promotes economic stability by reallocating funds to other industries, thus contributing to Indonesia's economic well-being and sustainable energy future. Highlights : This study evaluates solar energy's potential as a sustainable alternative to coal-based electricity in Indonesia, addressing environmental concerns. It emphasizes the feasibility of household-level solar panel adoption for cost reduction and energy self-sufficiency, focusing on photovoltaic technology and optimal daylight utilization. The research underscores the importance of public awareness and government support for solar panel adoption, highlighting its role in economic stability and resource allocation to productive sectors, ultimately contributing to a sustainable energy future. Keywords: Solar Energy, Sustainability, Household Adoption, Photovoltaic Technology, Environmental Benefits
Mitigating Construction Waste Pollution for Environmental Sustainability: An Integrated Approach Fauzany, Zaenal Aulil; Rizki, Muhammad Alvan; Wahyuni, Atik; Harsono, Budwi
Academia Open Vol 8 No 1 (2023): June
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/acopen.8.2023.7861

Abstract

This scientific article addresses the pressing issue of environmental pollution arising from construction waste, particularly its adverse effects on water quality due to rapid urban development with insufficient environmental considerations. Employing a multidisciplinary approach encompassing literature review and legal analysis, this study investigates the detrimental impacts of construction waste pollution on human health, economic losses, and disruptions to natural ecosystems. The research underscores the critical need for enhanced awareness and action among government entities, contractors, and the public to safeguard the environment from the deleterious effects of construction waste pollution, thereby preserving natural ecosystems and upholding environmental standards. The study's findings emphasize the imperative role of governments in promoting environmental management and regulation, emphasizing the urgency of concerted efforts to address this global environmental challenge. Highlights: Construction waste pollution poses a significant threat to water quality and the environment, especially in rapidly urbanizing areas with inadequate environmental planning. This study employs a multidisciplinary approach, including literature review and legal analysis, to assess the adverse impacts of construction waste on human health, economics, and natural ecosystems. The research underscores the urgency of raising awareness and taking action, involving government bodies, contractors, and the public, to protect the environment, preserve natural ecosystems, and uphold environmental standards. Keywords: Construction Waste Pollution, Water Quality, Environmental Considerations, Multidisciplinary Approach, Environmental Management
Analisis Faktor Penyebab Waste Besi dan Mitigasi pada Proyek Toll KLBM (Krian Legundi Bunder Manyar) Rizki, Muhammad Alvan; Mudjanarko, Sri Wiwoho; Abdulrahim, Muslimin
Jurnal Spesialis Teknik Sipil (JSpTS) Vol 6 No 1 (2025)
Publisher : Magister Teknik Sipil, Fakultas Teknik, Universitas 17 Agustus 1945 Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30996/jspts.v6i1.131842

Abstract

In general, iron material is a support of structural buildings. Waste iron material is waste that has a high enough value in a construction that is of particular concern in current construction projects. Iron waste material can be defined as material, which does not add value or progress to construction projects. So that more waste can make a loss project. Many factors cause iron material waste in the KLBM Toll project, both internal and external factors. The population of this research is the KLBM Toll Project. Research data obtained through the distribution of questionnaires and interviews with KLBM Toll construction practitioners using Google Form. Data taken from 11 respondents are probability, impact, and mitigation data. Data processing uses Fault Tree Analysis, Expected Monetary Value, and Mitigation Decision. The largest Expected Monetary Value results show the biggest factor causing iron material waste. The results showed the three biggest causes of iron material waste based on the EMV value were the construction had already taken place, the owner made a design change, the planner was less competent, and the iron material was lost / vandalism. The biggest cause category is in terms of design. Mitigation that can be done is to review the design and structural drawings with value engineering, improve communication in design planning, hold regular meetings between the owner and contractor, check material regularly, protect iron material properly for example installing fences in the area of iron stock, and provide additional security like cctv.
Cost and Time Performance Analysis Using the Earned Value Concept in the Construction of the Integrated Lecture Building at the State Polytechnic of Shipbuilding Surabaya Bahari, Victor Fajar; Rizki, Muhammad Alvan
Journal La Multiapp Vol. 6 No. 3 (2025): Journal La Multiapp
Publisher : Newinera Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37899/journallamultiapp.v6i3.2154

Abstract

Time and cost control is an important aspect in the success of construction projects, especially in large-scale projects such as the construction of the Integrated Lecture Building (GKT) of Surabaya State Polytechnic of Shipping. This research aims to analyze the time and cost performance of the project using the earned value concept. With this method, measurement and evaluation of project performance can be done quantitatively based on earned value data. The results of the analysis show that from the evaluation results in the 35th week, the value of ACWP is Rp. 47,741,219,980.93, the BCWP value is Rp. 47,874,478,839.55, and the BCWS value is Rp. 47,721,477,927.80. Based on the ACWP, BCWP, and BCWS values, the Cost Variance (CV) value is Rp. 133,258,858.63 and the Schedule Variance (SV) is Rp. 153,00,911.76. This figure indicates that the costs incurred are more efficient and the implementation time is faster than planned. The values of CPI and SPI equal to 1.00 indicate good cost performance within budget as well as good schedule performance with the schedule on time against the plan. The estimated cost of ETC is Rp. 1,476,532,576.73 and EAC is Rp. 49,217,752,557.66. The estimated time of ETS is Rp. 1.99 weeks and EAS is 36.99 weeks. With the application of this method, deviations from schedule and budget can be identified early so that decision making can be done appropriately to return the project to the predetermined schedule.
Co-Authors Abdulrahim, Muslimin Atik Wahyuni Atik Wahyuni Bahari, Victor Fajar Budwi Harsono Fauzany, Zaenal Aulil Hendri Hermawan Mahardika Darmawan Kusuma Wardana Pradana, Nico Cahya Pradana Sri Wiwoho Mudjanarko, Sri Wiwoho