Research Collaboration for Environmental Technology and Resource Recovery: Insights from BRIN’s Envirotalks Webinar

Research collaboration among related parties is expected to enhance the quality of research and produce maximum results, according to the Head of the Center for Environmental Research and Clean Technology (PRLTB) at the National Research and Innovation Agency (BRIN), Sasa Sofyan Munawar. Speaking at the 8th Edition Envirotalks Webinar, Munawar emphasized the importance of collaboration between PRLTB researchers and experts in the field of environment and clean technology.

The webinar aimed to foster research collaboration and generate research outputs that benefit society. One of the resource persons, Adroit TN Fajar from Kyushu University, Japan, discussed research on membranes for metal recovery and machine learning for more environmentally friendly metal extraction. Fajar highlighted the significance of Platinum Group Metal (PGM), particularly platinum, palladium, and rhodium, in various industries such as automotive catalysts, computers, and smartphones. He noted that the global demand for PGM has been increasing since 1970 and is predicted to triple by 2070.

Fajar emphasized the economic value of PGM and the need for reserves, as it is one of the rarest metals to find. He discussed the current recycling efforts, which mainly focus on car autocatalysts, and the two approaches used for recycling PGM: pyrometallurgical extraction and hydrometallurgical extraction. Fajar also mentioned the extreme solution proposed by NASA to mine metals in outer space but emphasized the importance of applicable innovation.

Asep Bayu Nandiyanto, a Visiting Professor of BRIN from the Indonesian Education University, delivered a presentation on the role of nano and microparticle chemistry in increasing the added value of natural resources and the development of Indonesian education. Nandiyanto highlighted the high demand for nano and microparticle chemistry in various industries, including electronics, automotive, food, medicine, and the military. He emphasized the need for innovation in utilizing Indonesia’s natural resources to reduce import dependency.

Nandiyanto discussed various applications of nano and microparticle chemical technology, such as designing homemade equipment and utilizing agricultural waste to create nano-structured brake pads and briquettes. He also mentioned the use of nano-chemical technology and microparticles in food production, such as adjusting the composition of chips to achieve the desired taste.

The webinar aimed to inspire students and young researchers to develop concepts and contribute to the field of nano and microparticle chemistry. The collaboration between researchers and experts in different fields is expected to enhance research outcomes and address environmental challenges.

Overall, the webinar highlighted the importance of research collaboration and the potential for innovative solutions in the fields of metal recovery and nano and microparticle chemistry. The exchange of knowledge and expertise among stakeholders is crucial for advancing research and achieving sustainable development goals.

What are the main challenges in PGM extraction and how can they be addressed to minimize the high cost, environmental impact, and inefficiency of traditional methods?

Scussed the challenges in PGM extraction, including the high cost, environmental impact, and the inefficiency of traditional methods. Fajar then presented his research on membranes for metal recovery, which offers a more sustainable and cost-effective solution. He also highlighted the use of machine learning in optimizing metal extraction processes, leading to reduced energy consumption and environmental footprint.

Munawar praised Fajar’s research and emphasized the importance of such collaborations in addressing environmental challenges. He stressed that research collaboration not only enhances the quality of research but also maximizes the results by combining the expertise and resources of different parties. Munawar urged researchers and experts in environmental and clean technology fields to work together to develop innovative solutions that benefit society and the environment.

The webinar also served as a platform for researchers and experts to exchange knowledge and ideas. Participants engaged in discussions on various topics, including sustainable waste management, renewable energy, and environmental monitoring. The event facilitated networking opportunities and potential future collaborations among participants.

Overall, the webinar highlighted the significance of research collaboration in advancing environmental research and clean technology. By bringing together researchers and experts from different fields, innovative solutions can be developed to address environmental challenges, such as PGM extraction. The exchange of knowledge and ideas fosters a more comprehensive understanding of environmental issues and paves the way for sustainable solutions that benefit society and the environment.