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AgroBot Feed Innovation by Universitas Teknokrat Indonesia Students Advances Smart Livestock Technology

By green TeknokratPosted on 30/03/2026Posted in Education and Research, Energy and Climate Change, environmental, Green Campus, setting and infrastructureTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking, WasteNo Comments

Bandar Lampung – Students of Universitas Teknokrat Indonesia (UTI) have once again demonstrated their innovative excellence by developing AgroBot Feed, a cutting-edge automatic cattle feeding robot designed to modernize livestock management. This breakthrough innovation marks another significant milestone in the university’s commitment to producing impactful, technology-driven solutions for real-world challenges. Read More : Universitas Teknokrat Indonesia Academic Expo Showcases “Nutriscane” Innovation Supporting SDGs The development of AgroBot Feed reflects the successful implementation of Sustainable Development Goal (SDG) 4: Quality Education, where Universitas Teknokrat Indonesia continues to position itself as a center for transformative learning. Through a combination of Artificial Intelligence (AI), robotics, and smart agriculture systems, students are not only gaining theoretical knowledge but also applying it directly in practical and meaningful ways. Developed within the university’s Center of Excellence, AgroBot Feed is the result of close collaboration between students and faculty members. This hands-on learning approach ensures that students are equipped with future-ready skills, enabling them to become innovators capable of responding to the demands of the rapidly evolving digital era. AgroBot Feed is designed with a smart control system that can automatically regulate feeding schedules and portions with high accuracy. This feature allows livestock farmers to maintain consistency in animal nutrition while significantly reducing manual labor. The system also minimizes the risk of overfeeding or underfeeding, contributing to improved livestock health and productivity. The innovation strongly aligns with SDG 9: Industry, Innovation, and Infrastructure, as it promotes the adoption of advanced technology in the agricultural and livestock sectors. By introducing automation into daily farming activities, AgroBot Feed helps build a more efficient and sustainable agricultural ecosystem. This transformation is particularly important in supporting local farmers to adapt to the challenges of the Industry 4.0 era, where digital integration is becoming essential. According to the student development team, the idea behind AgroBot Feed originated from the challenges faced by traditional livestock farmers, including time-consuming feeding processes and inconsistent feeding schedules. By leveraging modern technology, the team aims to create a solution that is not only efficient but also accessible and scalable for wider use. “AgroBot Feed is designed to simplify farmers’ daily activities while improving productivity. We hope this innovation can contribute to the advancement of smart farming in Indonesia,” said one of the student developers during the presentation. The robot was officially showcased at the 2026 Academic Expo, one of Universitas Teknokrat Indonesia’s flagship events that highlights student innovation and creativity. The exhibition attracted significant attention from visitors, academics, and industry observers, who recognized the potential of AgroBot Feed to transform the livestock sector. University representatives emphasized that innovations like AgroBot Feed demonstrate the institution’s strong commitment to encouraging research-based learning and technological development. By integrating academic knowledge with practical implementation, the university continues to produce graduates who are not only skilled but also capable of driving innovation at both national and global levels. “AgroBot Feed is more than just a technological product—it represents our students’ dedication to creating solutions that benefit society. This is a clear example of how education, research, and innovation can work together to support sustainable development,” a university official stated. Beyond its technical advantages, AgroBot Feed also reflects a broader commitment to improving livestock welfare and supporting national food security. By ensuring efficient and precise feeding, the system contributes to healthier livestock, which ultimately benefits the entire agricultural supply chain. Looking forward, Universitas Teknokrat Indonesia aims to further develop and refine this innovation, with the potential for commercialization and wider adoption across Indonesia’s agricultural sector. The university also encourages continuous collaboration with industry partners to ensure that such innovations can reach and benefit local communities. AgroBot Feed stands as a powerful symbol of how student innovation, when supported by quality education and strong institutional guidance, can create meaningful contributions to sustainable development and national progress. Read More: Innovative Learning at Universitas Teknokrat Indonesia: Civil Engineering Students Develop Soil Layer and Hydrological Process Scale Model Support SDGs:

Universitas Teknokrat Indonesia Academic Expo Showcases “Nutriscane” Innovation Supporting SDGs

By green TeknokratPosted on 30/03/2026Posted in Education and Research, environmental, Green CampusTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking, WasteNo Comments

Bandar Lampung – The Academic Expo held by Universitas Teknokrat Indonesia (UTI) once again highlights the university’s strong commitment to fostering innovation and supporting global development goals. This annual event serves as a dynamic platform for students to present their creative works, bridging academic knowledge with real-world applications. Read More : Universitas Teknokrat Indonesia Develops Third-Generation Digital Smart Collar to Advance Smart Livestock Technology More than just an exhibition, the Academic Expo reflects UTI’s dedication to advancing Sustainable Development Goal (SDG) 4: Quality Education, by encouraging students to go beyond theoretical learning. Through this initiative, students are challenged to develop innovative solutions that address contemporary societal issues, particularly in the era of rapid digital transformation. One of the standout innovations presented at this year’s expo is “Nutriscane,” a digital application designed to promote healthier lifestyles through technology. The app introduces a practical barcode scanning feature that enables users to instantly access detailed nutritional information of packaged food products, including calorie count, sugar levels, and fat content. This innovation directly supports SDG 3: Good Health and Well-being, as it empowers individuals to make more informed dietary decisions. In today’s fast-paced lifestyle, where processed and packaged foods are increasingly consumed, Nutriscane provides a smart and accessible solution to help users better manage their daily nutritional intake. The developers of Nutriscane explained that the idea emerged from growing public concern about health issues related to poor dietary habits. By integrating technology with health awareness, the application aims to educate consumers and encourage healthier consumption patterns. “Through Nutriscane, we want to help people become more aware of what they consume every day. Small decisions, such as choosing healthier food options, can have a significant impact on long-term well-being,” said one of the student developers during the expo. The presence of innovations like Nutriscane demonstrates how Universitas Teknokrat Indonesia continues to nurture a generation of students who are not only academically competent but also socially responsive and solution-oriented. The university actively promotes interdisciplinary collaboration, enabling students to combine knowledge from technology, health, and social sciences. Furthermore, the Academic Expo strengthens the synergy between education and innovation by creating an ecosystem where ideas can grow into impactful solutions. It also serves as a stepping stone for students to prepare for future challenges in both national and global contexts. University representatives emphasized that such initiatives are part of UTI’s long-term vision to produce graduates who are ready to contribute meaningfully to society. By aligning student projects with the SDGs, the university ensures that innovation is not only creative but also purposeful. “Nutriscane is more than just a technological product—it represents the spirit of young innovators who care about public health and are eager to make a difference,” a university official stated. Looking ahead, Universitas Teknokrat Indonesia remains committed to supporting student-driven innovations that address real-world problems. The success of Nutriscane serves as an inspiring example of how higher education institutions can play a vital role in shaping a healthier, smarter, and more sustainable society. With continued support and collaboration, innovations like Nutriscane are expected to contribute significantly to public awareness, healthier lifestyles, and national progress in the digital era. Read More: Innovative Learning at Universitas Teknokrat Indonesia: Civil Engineering Students Develop Soil Layer and Hydrological Process Scale Model Support SDGs :

Universitas Teknokrat Indonesia Develops Third-Generation Digital Smart Collar to Advance Smart Livestock Technology

By green TeknokratPosted on 12/03/2026Posted in Education and Research, environmental, Green Campus, Tak BerkategoriTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking, WasteNo Comments

Bandar Lampung – Universitas Teknokrat Indonesia continues to demonstrate its commitment to innovation, research excellence, and societal impact through the development of a third-generation Digital Smart Collar, an Internet of Things (IoT)–based wearable device designed to monitor livestock health in real time. The innovation is developed through the Center of Excellence (CoE) Smart Agriculture, where students and faculty collaborate in applied research aimed at addressing real challenges in the agricultural and livestock sectors. Other News: Innovative Learning at Universitas Teknokrat Indonesia: Civil Engineering Students Develop Soil Layer and Hydrological Process Scale Model The project involves students from the Computer Engineering program, who work closely with faculty mentors to design, test, and refine the technology. This hands-on research initiative reflects the university’s vision of preparing graduates who are not only academically capable but also equipped with practical skills to solve complex problems in the field. The Digital Smart Collar represents the latest evolution of previous prototypes developed at Universitas Teknokrat Indonesia. In its third generation, the device integrates advanced sensors, wireless communication systems, and data analytics platforms to provide continuous monitoring of livestock health conditions. Using IoT technology, the collar collects important physiological and behavioral data from animals, such as body movement, temperature indicators, and activity patterns. The information is then transmitted to a digital platform that allows farmers to monitor livestock conditions through smartphones or computer dashboards. This innovation enables farmers to detect early signs of disease, monitor animal activity, and manage livestock more efficiently. By accessing real-time data, farmers can make faster and more accurate decisions related to feeding patterns, health treatments, and overall livestock management. According to the research team, the development of the Digital Smart Collar is part of Universitas Teknokrat Indonesia’s broader strategy to strengthen its Center of Excellence programs, which aim to bridge academic research with industry applications and commercialization opportunities. The research initiative has received support from the Ministry of Higher Education, Science, and Technology (Kemendiktisaintek) through the SINERGI research funding scheme, highlighting the national importance of this technological innovation. With this support, the Digital Smart Collar is no longer positioned merely as an experimental prototype but is being prepared as a commercial-ready technology that can be implemented in Indonesia’s livestock industry. The development of this wearable device is expected to play a significant role in accelerating the digital transformation of the livestock sector in Indonesia. By integrating smart monitoring technology into traditional farming practices, farmers can improve productivity, reduce livestock mortality, and optimize resource management. Researchers involved in the project explained that one of the main goals of the technology is to empower farmers with accessible and affordable digital tools. “Through the Digital Smart Collar, farmers can monitor the health of their livestock in real time. Early detection of disease risks allows them to take preventive measures quickly, which ultimately improves livestock productivity and reduces economic losses,” explained one of the faculty mentors involved in the research. The project also serves as an important learning platform for students. By participating directly in applied research, students gain valuable experience in hardware development, sensor integration, IoT networking, and data analytics, skills that are highly relevant to the rapidly evolving digital technology sector. Through the Center of Excellence Smart Agriculture, Universitas Teknokrat Indonesia continues to encourage interdisciplinary collaboration between engineering, agriculture, and information technology to produce solutions that can benefit society at large. In addition to strengthening research capacity, the university also aims to ensure that technological innovations produced on campus can generate tangible economic and social impact, particularly for rural communities and farmers. Contribution to the Sustainable Development Goals (SDGs) The development of the Digital Smart Collar by Universitas Teknokrat Indonesia aligns closely with several key targets within the United Nations Sustainable Development Goals (SDGs). First, the initiative strongly supports SDG 4: Quality Education. By engaging students directly in applied research projects, the university provides a learning environment that combines academic knowledge with real-world problem solving. Students gain practical experience in technological innovation while contributing to solutions that address national development challenges. Second, the innovation contributes to SDG 9: Industry, Innovation, and Infrastructure. The Digital Smart Collar represents a form of technological advancement that strengthens Indonesia’s digital infrastructure in the agricultural sector. The integration of IoT, sensor technology, and data analytics helps modernize traditional livestock farming practices and promotes innovation in agricultural technology. Third, the project also contributes indirectly to SDG 2: Zero Hunger by supporting the development of more efficient livestock management systems. By improving animal health monitoring and productivity, the technology can help increase food production capacity and support food security. Finally, the collaboration between the university, government research funding programs, and the agricultural sector reflects the spirit of SDG 17: Partnerships for the Goals. The synergy between academia, government institutions, and farmers demonstrates how multi-stakeholder collaboration can accelerate technological progress and sustainable development. Through initiatives such as the Digital Smart Collar, Universitas Teknokrat Indonesia continues to position itself as a hub of innovation and applied research, ensuring that academic knowledge is transformed into practical technologies that contribute to national development, technological independence, and the long-term welfare of Indonesian farmers. Other News: Teknokrat Electrical Engineering Students Develop Eco-Friendly Micro-Hydro Power Plant for Rural Energy Solutions

Innovative Learning at Universitas Teknokrat Indonesia: Civil Engineering Students Develop Soil Layer and Hydrological Process Scale Model

By green TeknokratPosted on 10/03/2026Posted in Education and Research, Energy and Climate ChangeTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking, WasteNo Comments

Bandar Lampung – Civil Engineering students at Universitas Teknokrat Indonesia continue to demonstrate innovation in applied learning through the development of a detailed scale model that illustrates soil layers and hydrological processes. This educational project was designed as a practical learning medium to simplify complex geotechnical concepts and the natural water cycle, enabling students to better understand the interaction between soil characteristics and water movement. Other News: Teknokrat Electrical Engineering Students Develop Eco-Friendly Micro-Hydro Power Plant for Rural Energy Solutions The creation of the scale model reflects a hands-on learning approach that encourages students to translate theoretical knowledge into tangible visualization. In civil engineering, understanding the relationship between soil properties and hydrological dynamics is crucial, as both significantly influence the planning, design, and construction of infrastructure such as buildings, highways, bridges, and dams. This project integrates two fundamental areas of civil engineering study: Soil Mechanics and Hydrology. Through Soil Mechanics, students analyze the physical and mechanical properties of soil, including density, permeability, and bearing capacity—factors that determine the stability and safety of structures built on the ground. Meanwhile, Hydrology focuses on the natural movement of water within the environment, encompassing rainfall patterns, infiltration processes, groundwater flow, and surface runoff. According to the academic team supervising the project, combining these two disciplines allows students to develop a more holistic understanding of how soil and water systems interact in real-world engineering scenarios. “By visualizing soil layers and water movement through a scale model, students can more easily grasp complex geotechnical concepts that are often difficult to understand through theory alone,” explained one of the lecturers involved in the project. The scale model developed by the students presents a detailed cross-sectional representation of underground soil layers. The model includes several strata arranged sequentially, starting from topsoil, followed by clay, sand, and ending with bedrock. Each layer is designed with different colors and textures to provide a realistic depiction of subsurface geological structures. In addition to illustrating soil stratification, the model also incorporates dynamic simulations of hydrological processes. Water can be poured onto the model surface to demonstrate rainfall infiltration into the soil and the formation of surface runoff. Through this simulation, students are able to observe how water interacts with different soil types, including how permeability and soil composition influence water absorption and flow. This interactive approach not only enhances students’ conceptual understanding but also strengthens their analytical and problem-solving skills in addressing real engineering challenges. By observing the physical behavior of water within layered soils, students gain insights into issues such as drainage planning, slope stability, groundwater management, and flood mitigation. The project also reflects Universitas Teknokrat Indonesia’s commitment to promoting experiential learning in engineering education. By combining theoretical instruction with practical demonstrations, the university aims to prepare graduates who are not only academically competent but also capable of applying their knowledge to real-world infrastructure development. Through innovative learning initiatives such as this scale model project, Civil Engineering students at Universitas Teknokrat Indonesia continue to showcase their creativity, technical competence, and readiness to contribute to sustainable infrastructure solutions in the future. Other News: Civil Engineering Students of Universitas Teknokrat Indonesia Showcase Dam Scale Model at Academic Expo 2026 Support SDGs:

Teknokrat Electrical Engineering Students Develop Eco-Friendly Micro-Hydro Power Plant for Rural Energy Solutions

By green TeknokratPosted on 05/03/2026Posted in Education and Research, setting and infrastructureTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking, WasteNo Comments

Bandar Lampung – Electrical Engineering students of Universitas Teknokrat Indonesia have once again demonstrated their innovation and technical excellence by developing an environmentally friendly Micro-Hydro Power Plant (MHP). This project represents a tangible contribution by students in delivering renewable energy solutions based on local natural resources. Baca Juga: Civil Engineering Students of Universitas Teknokrat Indonesia Showcase Dam Scale Model at Academic Expo 2026 Under the supervision of Fika Trisnawati, S.T., M.T., and Sigit Doni Ramdhan, S.T., M.Eng., the student team led by Kia Awanda Pria successfully designed a micro-hydro system capable of harnessing small-scale river currents as a sustainable energy source. The system integrates a turbine, generator, and a precision power conversion unit to transform low water discharge into stable and efficient electrical energy. Implementation of Quality Higher Education Through Applied Research The development of this Micro-Hydro Power Plant goes beyond a classroom assignment. It reflects the practical implementation of quality higher education, where students are encouraged to bridge theoretical knowledge with real-world engineering challenges. Through direct field testing and system validation, the team ensured that the technology was not only conceptually sound but also technically robust and adaptable to various environmental conditions. This applied research process strengthened students’ technical competencies, problem-solving skills, and professional independence as future engineers ready to contribute to industry and society. Clean Energy Solution for Remote Communities More than an academic achievement, this micro-hydro innovation offers a strategic solution for rural and remote areas where access to conventional electricity infrastructure remains limited. By utilizing locally available river currents, the system provides an independent, clean, and renewable energy alternative. This initiative has the potential to foster more self-sufficient, inclusive, and sustainable communities while reducing dependence on fossil-based energy sources. The environmentally friendly nature of micro-hydro technology also supports efforts to lower carbon emissions and promote green development. Institutional Commitment to Sustainable Innovation Through this project, Universitas Teknokrat Indonesia reaffirms its commitment to supporting student-driven innovation that delivers meaningful societal impact. The Micro-Hydro Power Plant initiative aligns with the university’s vision of promoting research-based learning and sustainable technological solutions. By empowering young innovators in the field of renewable energy, Universitas Teknokrat Indonesia continues to position itself as a center of excellence that not only achieves academic distinction but also contributes actively to sustainable national development and community well-being. Support for SDGS:

Civil Engineering Students of Universitas Teknokrat Indonesia Showcase Dam Scale Model at Academic Expo 2026

By green TeknokratPosted on 25/02/2026Posted in Education and Research, environmental, setting and infrastructureTagged Education and Research, Energy and Climate Change, Fight Covid19, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking, WasteNo Comments

Bandar Lampung – Civil Engineering students from Universitas Teknokrat Indonesia (UTI) once again demonstrated their academic excellence and engineering capabilities at the Academic Expo 2026 by presenting a detailed dam scale model. The project represents the successful integration of theoretical knowledge and practical application gained through the Advanced Water Structures course. Baca Juga: River Clean Up Activities by students of Universitas Teknokrat Indonesia The scale model, designed as a concrete gravity dam, features essential structural components, including a spillway and diversion channels. This project reflects the students’ ability to translate classroom concepts into tangible engineering solutions, highlighting both technical competence and creativity in civil engineering design. The model serves not only as an exhibition piece but also as a practical learning outcome. Through this hands-on project, students gained deeper insights into hydrology, structural stability, and water flow management. They learned how dam systems function in real-world conditions, including their critical roles in flood control, irrigation systems, and hydroelectric power generation. “This project allowed us to directly apply the theories we studied in class into a realistic engineering model. We were able to better understand structural stability, water flow mechanisms, and the importance of each dam component,” said one of the participating Civil Engineering students during the exhibition. Academic Expo is an annual event organized by Universitas Teknokrat Indonesia to showcase student innovation, academic achievements, and creative works. The event provides a platform for students to present their projects to the academic community and the public, while also enhancing their communication, presentation, and problem-solving skills. In addition to its academic value, the dam scale model also serves as an educational tool for visitors. It helps increase public awareness about the importance of water infrastructure in supporting sustainable development and improving quality of life. Infrastructure such as dams plays a vital role in water resource management, agricultural productivity, and renewable energy production. A lecturer of the Advanced Water Structures course emphasized that the project is designed to encourage students to think critically, creatively, and practically. According to the lecturer, the ability to design and visualize infrastructure systems is an essential competency for future civil engineers. “Students are expected not only to understand engineering theory but also to apply it through design and visualization. This project reflects our commitment to preparing graduates who are ready to contribute professionally to infrastructure development,” the lecturer stated. The participation of Civil Engineering students in Academic Expo 2026 demonstrates Universitas Teknokrat Indonesia’s strong commitment to producing competent, innovative, and competitive graduates. The university continues to uphold its “Sang Juara” (Champion) spirit by encouraging students to create meaningful innovations that address real-world construction and infrastructure challenges. Through initiatives like this, Universitas Teknokrat Indonesia aims to empower students to become future engineers who are capable of contributing to sustainable national infrastructure development and advancing the engineering profession. Baca Juga: Maintaining the campus as a comfortable and beautiful learning environtment Support for SDGS:

Solar Panel is Part of Teknokrat Green Infrastructure Innovation

By green TeknokratPosted on 24/04/2025Posted in Energy and Climate Change, Green Campus, setting and infrastructure, Tak BerkategoriTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University Ranking

At the Universitas Teknokrat Indonesia, the utilization of solar panels as an alternative energy source plays a crucial role in supporting environmental sustainability and reducing energy costs. By harnessing abundant sunlight, solar panels generate electricity to meet the energy needs of various campus facilities, such as classrooms, laboratories, and common areas. This initiative not only reduces dependence on fossil energy sources but also contributes to the reduction of carbon emissions that harm the environment. The use of solar panels is also part of Universitas Teknokrat Indonesia’s commitment to implementing environmentally friendly technologies and creating a greener campus. Furthermore, this technology provides an opportunity for students to directly learn about the application of renewable energy in everyday life, supporting research and innovation in the field of renewable energy, and raising awareness about the importance of clean energy for the future. With the installation of solar panels, Universitas Teknokrat Indonesia not only serves as an educational institution but also as an example of efforts to create a more sustainable environment. This step demonstrates that, with the right use of technology, a campus can reduce operational costs while making a positive impact on the surrounding community and the planet as a whole. This initiative serves as an inspiration for other institutions to adopt renewable energy in support of more sustainable development. This solar energy initiative has been made possible through strong institutional commitment and collaboration with energy experts and government agencies. Universitas Teknokrat Indonesia continues to explore opportunities for expanding its renewable energy infrastructure, including plans to install more solar panels and introduce energy-efficient systems across campus buildings. These developments are aligned with national and global goals for climate action and sustainable development. Moreover, the presence of solar technology on campus has encouraged the integration of sustainability topics into various academic programs. Students from engineering, environmental science, and information technology departments are increasingly involved in related research, innovation projects, and community outreach programs. By turning the campus into a living laboratory, Universitas Teknokrat Indonesia empowers students not only to understand the science behind renewable energy but also to become active contributors in advancing sustainable practices in society.

Development of solar powered cars by creative student

By green TeknokratPosted on 04/02/2025Posted in Energy and Climate Change, Tak Berkategori, TransportationTagged Education and Research, Energy and Climate Change, Information Technology, Setting and Infrastructure, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University RankingNo Comments

Students from Universitas Teknokrat Indonesia have once again demonstrated their creativity and commitment to the environment by creating a solar-powered car that is eco-friendly! This innovation is proof that the younger generation of Indonesia is ready to contribute to positive change in the automotive and renewable energy sectors. By harnessing solar energy, this car not only reduces carbon emissions but also offers a sustainable transportation solution for the future. This outstanding achievement was directly appreciated by the Acting Governor of Lampung, Dr. Drs. Samsudin, S.H., M.H., M.Pd., who expressed his pride and support for the work of Universitas Teknokrat Indonesia’s students. He emphasized that innovations like this are a real example of how technology can be applied to address global challenges, such as climate change and dependence on fossil fuels. With this recognition, it is hoped that this project will continue to develop and inspire more young people to create innovative solutions for the planet’s sustainability. Universitas Teknokrat Indonesia remains committed to nurturing an innovative generation that is not only academically brilliant but also cares about the future of the world. The development of the solar-powered car was supported by dedicated faculty members and equipped with resources from the university’s engineering and environmental science departments. The project not only serves as a practical learning experience for students but also showcases the university’s commitment to fostering research and innovation in renewable energy technologies. Moving forward, the student team plans to refine the car’s design and performance, aiming to compete in national and international competitions focused on green technology. The university is also exploring partnerships with local industries and government agencies to promote the commercialization and wider adoption of solar-powered vehicles in Indonesia. By pioneering such forward-thinking projects, Universitas Teknokrat Indonesia is setting a strong example for educational institutions nationwide. This initiative highlights the vital role of young innovators in driving sustainable development and reducing the environmental impact of transportation, paving the way toward a cleaner and greener future.

Reclaiming Former Mining Lands: Transforming into Solar Energy Fields

By green TeknokratPosted on 26/09/2024Posted in Energy and Climate Change, TransportationTagged Energy and Climate Change, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University RankingNo Comments

Mining activities, while significantly contributing to the economy, often leave behind degraded and non-productive land. However, instead of being an environmental burden, these lands can be transformed into valuable assets through innovative and sustainable methods, such as constructing solar power plants (PLTS). Why Are Former Mining Lands Ideal for Solar Power Plants? Reclamation and PLTS Development Process The process of transforming former mining lands into solar energy fields involves several stages: Benefits of Reclaiming Former Mining Lands into Solar Power Plants Successful Case Studies Several countries have successfully implemented this concept with very positive results. For instance, in Australia, many former coal mining lands have been converted into large-scale PLTS. Similar projects have been carried out in parts of Europe and the United States. Challenges and Solutions While there is great potential, developing PLTS on former mining lands also faces some challenges: Reclaiming former mining lands as solar energy fields is a compelling solution to address environmental and energy challenges. With thorough planning and support from various stakeholders, this concept could become a critical milestone in the transition toward clean and sustainable energy. Sumber : https://industri.kontan.co.id/news/menilik-rencana-pemerintah-ubah-lahan-bekas-tambang-jadi-ladang-energi-terbarukan?page=all

Flexible Solar Panels: The Future of Electric Vehicle Charging

By green TeknokratPosted on 06/09/2024Posted in Energy and Climate Change, Information Technology, TransportationTagged Energy and Climate Change, Information Technology, Teknokrat Green Campus, Transportation, UIGreenmetric, UIGreenmetric World University RankingNo Comments

The electric vehicle (EV) revolution has brought new momentum to the automotive industry. As the number of electric vehicles grows, the need for efficient and sustainable charging infrastructure becomes increasingly urgent. One innovative solution emerging is the use of flexible solar panels to charge electric vehicles. What Are Flexible Solar Panels? Flexible solar panels are a type of solar panel made from thin, bendable materials, allowing them to be installed on uneven or curved surfaces. Unlike rigid conventional solar panels, flexible panels offer greater installation versatility and convenience. Advantages of Flexible Solar Panels for Electric Vehicles Applications of Flexible Solar Panels for Electric Vehicles Challenges and Technological Advancements While flexible solar panels offer numerous benefits, they still face some challenges, such as: However, ongoing advancements in technology aim to address these challenges. Promising developments include: Flexible solar panels offer an exciting solution to meet the demand for clean and sustainable energy in the EV industry. With their many advantages, flexible solar panels have the potential to become a key component in the electric vehicles of the future. Sumber : https://atonergi.com/panel-surya-untuk-mobil-listrik-pengisian-ramah-lingkungan/