Tiêu đề Meeting 1 Motorized Vehicle ✅

1. List Masukan Judul 1.1. Leonardus Magnus ● Effectiveness of Lithium-ion Battery Technology and Alternatives for Electric Vehicles as a Sustainable Transport Solution: Comparison with Conventional Petrol Vehicles and Implications for Automotive Manufacturing Strategies ● Between electric and internal combustion engine vehicles: Are hybrids the right solution? ● The Impact of Consumer Preferences for Petrol Cars on Electric and Hybrid Car Manufacturing Strategies and Challenges in The Jabodetabek Area 1.2. Fawzan Dwi ● Development of Hydrometallurgical Process for Recycling Used Lithium-Ion Batteries in Indonesia ● Nano Sensor-Based BMS System Design for Thermal Runaway Prevention in EVs ● Optimizing the Placement of Fast Charging Stations for Electric Vehicles in Urban Areas of Indonesia 1.3. Fairuz Zain ● Life Cycle Assessment (LCA) of Battery Materials Used in Electric Vehicles: Environmental Impact ○ Previous journal for reference: Xin Lai, et al. Critical review of life cycle assessment of lithium-ion batteries for electric vehicles: A lifespan perspective (2022), eTransportation, Volume 12, 100169, ISSN 2590-1168, https://www.sciencedirect.com/science/article/pii/S2590116822000157 Xiong Shu, et al. Life-cycle assessment of the environmental impact of the batteries used in pure electric passenger cars (2021)., Energy Reports, Volume 7, 2302-2315,ISSN 2352-4847 https://www.sciencedirect.com/science/article/pii/S2352484721002547 ● Process Simulation and Energy Analysis of Lithium Extraction from Brine Using a Solvent Extraction Approach ○ Previous journal for reference: Qing Sun, Hang Chen, and Jianguo Yu, Investigation on the Lithium Extraction Process
with the TBP–FeCl3 Solvent System Using Experimental and DFT Methods (2022). Industrial & Engineering Chemistry Research 2022 61 (13), 4672-4682. DOI: 10.1021/acs.iecr.1c05072 Ochromowicz, K., Zabłocka-Malicka, M., Chojnacka, I., & Worsa-Kozak, M. (2024). Assessing the Viability of Integrating Evaporation and Solvent Extraction Systems for Lithium Recovery from Low-Grade Brines. Processes, 12(7), 1453. https://doi.org/10.3390/pr12071453 ● Optimization of Emission Reduction in Diesel Engines Using After-Treatment Technologies: A Simulation Approach ○ Previous journal for reference: Bhardwaj, O., Blanco-Rodriguez, D., Krishnamurthy, K., Holderbaum, B., Optimization of Engine Effieciency and Diesel Aftertreatment System Architecture Using an Integrated System Simulation Approach (2016), SAE Technical Paper 2016-28-0227, https://doi.org/10.4271/2016-28-0227. 1.4. Rizki Purnomo: ● How the Industrial Internet of Things (lIoT) Enables Real-Time Data Utilization and Automation to Enhance Manufacturing Processes in Modern Factories ● "How Additive Manufacturing Improves Customization, Lead Time, and Resource Efficiency in Modern Manufacturing" ● "Leveraging Big Data Analytics for Real-Time Optimization of Smart Manufacturing Processes* Topic : Electric Vehicle Subtopic : Lithium-ion Battery - Impact to environment - Development of Hydrometallurgical Process for Recycling Used Lithium-Ion Batteries - Product of used lithium-ion battery recycle - Comparison to another battery (i.e nickel)