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All Journal JOURNAL OF MECHANICAL ENGINEERING, MANUFACTURES, MATERIALS AND ENERGY VOX EDUKASI: Jurnal Ilmiah Ilmu Pendidikan
Nur, Syukri M
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Education Energy Industrial & Manufacturing Engineering Mechanical Engineering

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STRATEGI RANCANGAN DAN PRODUK PEMBELAJARAN MIKRO BUKU DIGITAL (MICROLEARNING EBOOK) UNTUK PENDIDIKAN MAGISTER ENERGI TERBARUKAN Viendyasari, Mila; Nur, Syukri M; Yandri, Erkata; Uyun, Aep Saepul
VOX EDUKASI: Jurnal Ilmiah Ilmu Pendidikan Vol 14, No 2 (2023): NOPEMBER
Publisher : STKIP Persada Khatulistiwa Sintang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31932/ve.v14i2.2423

Abstract

ABSTRAKMicrolearning merupakan metode pembelajaran mikro yang berupaya menyampaikan pengetahuan atau bidang ilmu secara parsial kepada mahasiswa dan publik. Metode ini dikaji dan diadaptasikan pada proses pendidikan mahasiswa pascasarjana teknik energi terbarukan. Tujuan riset adalah perancangan alur kerja dan penyusunan materi kuliah dengan metode microlearning. Metode riset dilaksanakan melalui tinjauan pustaka dan penerapan rencana pembelajaran semester yang menjadi panduan belajar di perguruan tinggi. Alur kerja penyusunan microlearning telah diterapkan untuk mata kuliah konversi energi biomassa dan angin, kemudian menghasilkan tiga produk ebook dan memilik legalitas berupa ISBN dan hak cipta. Pengembangan alur kerja dan produk microlearning perlu dilakukan untuk mata kuliah lainnya, termasuk evaluasi kinerja metode ini berdasarkan respon penggunanya yaitu mahasiswa.Kata Kunci: Microlearning, Covid-19, renewable energy, distance learning, mobile learningABSTRACTMicrolearning is a micro learning method that seeks to partially convey knowledge or fields of knowledge to students and the general public. This method is studied and adapted to the educational process of students who apply renewable energy techniques. The aim of the research is to design workflows and prepare course materials using the microlearning method. The research method is carried out through literature reflection and the implementation of semester learning plans which become learning guides in tertiary institutions. The microlearning workflow has been implemented for the biomass and wind energy conversion courses, then produces three ebook products and has legality in the form of ISBN and copyright. Developing workflows and microlearning products needs to be done for other courses, including evaluating the performance of this method based on user responses, namely students.Keywords; Microlearning, Covid-19, renewable energy, distance learning, mobile learning 
Bioenergy as a Key Driver of Energy Transition: A Case Study of Emission Reduction and Energy Security Saiful, Rifki; Nur, Syukri M
JOURNAL OF MECHANICAL ENGINEERING MANUFACTURES MATERIALS AND ENERGY Vol. 9 No. 2 (2025): December 2025 Edition
Publisher : Universitas Medan Area

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31289/jmemme.v9i2.14158

Abstract

The transition to renewable energy is an urgent step in addressing the global climate crisis and reducing dependence on fossil fuels, which have increased greenhouse gas emissions and exacerbated climate change. In this context, bioenergy emerges as an important solution because it not only helps reduce carbon emissions through cleaner and carbon-neutral combustion but also increases energy security by diversifying energy sources, especially through the utilization of organic biomass such as agricultural and forestry waste. This study aims to study more deeply about bioenergy as a key driver of energy transition through case studies related to emission reduction and energy security enhancement. Bioenergy plays an important role in the global energy transition because it is able to reduce dependence on fossil fuels and reduce carbon emissions. In addition to helping create a more resilient energy system by utilizing local biomass resources, bioenergy also supports the principle of a circular economy through the utilization of organic waste. Despite offering many benefits, bioenergy development faces challenges such as resource supply and production efficiency, but the opportunities to overcome these challenges remain large through technological innovation and supportive policies. Bioenergy plays an important role in the global energy transition towards clean energy by reducing carbon emissions and increasing energy security through the utilization of renewable biomass. Despite challenges in terms of policy, technology, and raw material supply, the great potential of bioenergy can be optimized through innovation and policy support to strengthen a more sustainable energy system. This study shows that bioenergy has great potential to reduce carbon emissions and increase energy security through the use of renewable biomass, but further development is needed to overcome efficiency and policy challenges to support the transition to a more sustainable energy system.
Co-Authors Saiful, Rifki Uyun, Aep Saepul Viendyasari, Mila Yandri, Erkata