Prasoon Prasenan P | Engineering | Excellence in Innovation Award

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Assist. Prof. Dr. Prasoon Prasenan P | Engineering | Excellence in Innovation Award

College of Engineering Kidangoor | India

Assist. Prof. Dr. Prasoon Prasenan P is an emerging researcher with a growing academic footprint, reflected through 6 citations, an h-index of 1, and multiple scholarly documents spanning engineering, construction materials, and advanced concrete technologies. His contributions encompass a co-authored book on construction materials and an extensive portfolio of innovative patents, including UK-granted designs such as variable dosage digital medical atomizers, autonomous composite mortar gun systems, smart digital flow control valves, and multiple India-granted devices in physiotherapy, smart construction, and signal-quality analytics. He has also filed and published numerous patents in areas such as high-strength concrete, recycled aggregate applications, robotic construction technologies, prefab housing, and low-cost artificial sand development. His research outputs include several papers in Scopus-indexed and UGC Care-listed journals, covering self-curing high-performance concrete, sustainable concrete using recycled plastics, basalt fibre reinforcement, silico-manganese slag incorporation, red mud adsorption, hybrid-fibre-enhanced composites, and fly-ash–based artificial sand. He has also contributed to a major government project on river pollution abatement and rejuvenation, earning formal recognition. With presentations in national and international conferences on smart construction materials, fibre-reinforced composites, and sustainable engineering, his work demonstrates a strong commitment to advancing construction technology, sustainability, and innovative engineering solutions.

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Featured Publications

Experimental investigation on behaviour of self-curing HPC with bamboo fibre reinforcement and strengthening using HFRP. International Research Journal of Engineering and Technology (IRJET), (pp. 1400–1404). p-ISSN: 2395-0072, e-ISSN: 2395-0056.

Experimental investigation on effect of partial replacement of coarse aggregate by plastic aggregate on M40 grade self-compacting concrete. International Journal of Civil Engineering & Technology (IJCIET), 9(6), 955–963. ISSN 0976-6308 (Print), 0976-6316 (Online).

Durability properties of self-compacting concrete incorporating recycled high density polyethylene plastics. International Journal of Advanced Research in Engineering & Technology (IJARET), 11(11), 382–391. ISSN 0976-6480 (Print), 0976-6499 (Online).

Basalt fibre reinforced polymer for strengthening of self-compacting concrete compression member. Civil Engineering and Architecture, 10(3), 830–835.

Analysis of M60 grade concrete using silico-manganese slag as the partial replacement of coarse and fine aggregates. UGC Care Group I Journal, 12(08:04). ISSN 2347-7180.

Using red mud as an adsorbent to remove crystal violet dye. UGC Care Group I Journal, 12(08:04). ISSN 2347-7180.

Partial replacement of cement with sugar cane bagasse ash and hybrid fibers. UGC Care Group I Journal, 12(08:04). ISSN 2347-7180.

Development of process for creation of low-cost artificial sand from fly ash. UGC Care Group I Journal, 12(08:06). ISSN 2347-7180.

Partial replacement of cement, fine aggregates and coarse aggregates with fly ash, steel slag and recycled aggregates respectively in concrete. Emperor Journal of Applied Scientific Research, 4(09). ISSN 2581-964X.

Experimental study on fiber (hooked steel) reinforced concrete using M-20 grade. Dogo Rangsang Research Journal, 12(12:05). ISSN 2347-7180.

New retrofitting method for soft storey effect. International Journal of Creative Research Thoughts (IJCRT), 11(2). UGC Approved Journal No. 49023.

Regasa Yadeta Sembeta | Engineering | Editorial Board Member

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Mr. Regasa Yadeta Sembeta | Engineering | Editorial Board Member

Mattu University | Ethiopia

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Early Academic Pursuits 🎓

Mr. Regasa Yadeta Sembeta began his educational journey at Watiyo Elementary School (1992–2000 E.C.) and advanced through Kombolcha High School (2001–2002 E.C.) and Kombolcha Preparatory School (2003–2004 E.C.). He earned his Bachelor of Science in Civil Engineering from Mattu University in 2009 E.C., achieving a stellar CGPA of 3.92 and a Major GPA of 4.00. His passion for structural engineering led him to pursue a Master of Science at Jimma Institute of Technology, where he graduated with a perfect CGPA of 4.00 in 2014 E.C., showcasing excellence in research.

Professional Endeavors 💼

Since 2009 E.C., Mr. Sembeta has been an integral part of Mattu University, serving as a teacher, researcher, reviewer, and community service contributor. His professional focus combines academic instruction and impactful research, fostering innovation in structural engineering. His dedication to civil engineering education has left a lasting impact on both students and the institution.

Contributions and Research Focus 🌍

Mr. Sembeta's expertise lies in structural civil engineering, where he excels in using advanced tools like ABAQUS, Mathcad, ETBS, SAP, SAFE, and AutoCAD. His research explores cutting-edge topics in structural engineering, contributing to academic progress and practical applications. His work aligns with global efforts to enhance civil engineering practices and sustainable construction.

Accolades and Recognition 🏅

Recognized for his academic excellence, Mr. Sembeta's achievements include a perfect CGPA in his master's program and exceptional research evaluations. His teaching and research roles at Mattu University underscore his dedication to advancing civil engineering education and knowledge.

Impact and Influence 🌱

Through teaching, research, and community service, Mr. Sembeta has made significant contributions to civil engineering. His mastery of structural engineering software and commitment to education empower future engineers to excel in the field. His influence extends beyond academia to practical applications that benefit the broader community.

Legacy and Future Contributions 🌟

Mr. Sembeta’s legacy is defined by his academic excellence, innovative research, and dedication to structural engineering. His future endeavors promise to further advance civil engineering, emphasizing sustainable practices and cutting-edge solutions to meet global infrastructure challenges.

 

Publications

📝The Effects of Different Steel Sections on the Performance of Encased Composite Columns under Cyclic Lateral Loads

  • Journal: Results in Engineering
  • Year: 2024 (December)
  • Authors: Regasa Yadeta Sembeta, Kefiyalew Zerfu, Mulgeta Mersha, Elmer C. Agon

📝Modification of Load Carrying Capacity Model for Composite Column

  • Journal: Journal of Building Pathology and Rehabilitation
  • Year: 2023
  • Authors: B. Rath, Elmer C. Agon, B. Dereje, S. Garoma, A. Debela, K. Kebede, R. Yadeta

📝Finite Element-Based Performance Analysis of Encased Composite Columns under Monotonic Axial Compression Load

  • Journal: Advances in Civil Engineering
  • Year: 2023
  • Authors: Kefiyalew Zerfu, Regasa Yadeta Sembeta

 

Alice Cervellieri | Engineering | Best Researcher Award

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Dr. Alice Cervellieri | Engineering | Best Researcher Award

Politecnico di Torino | Italy

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Early Academic Pursuits 🎓

Dr. Alice Cervellieri began her academic journey with a Bachelor’s degree in Civil and Environmental Engineering from the University of Engineering, Bologna, in 2005, achieving a perfect score of 110/110 laude. Her pursuit of excellence continued with a Master’s degree in Civil Engineering from the same institution in 2011. Notably, she expanded her intellectual horizons by earning a Bachelor’s degree in Linguistic Mediation Sciences from the School of Advanced Linguistic Mediation in 2019, graduating with an outstanding average of 29. Her educational endeavors were further enriched by certifications and specialized training. She participated in the ERASMUS Virtual Exchange program in 2020, focusing on dialogue facilitation, and completed the “Certificatore Energetico” course by Assform in 2016, gaining qualifications as an energy certifier. Dr. Cervellieri also acquired advanced knowledge in digital transformation technologies through a prestigious course at the Massachusetts Institute of Technology (MIT) in 2021.

Professional Endeavors 🌍

Dr. Cervellieri has played significant roles in academia and professional training. She served as a visiting professor at the Catholic University of Manizales, Colombia, in November 2020. Her teaching contributions also include assignments for the Emilia Romagna Region’s “Energy Certifier” course and tutoring roles for EUSAIR Week. Since 2021, she has been a mentor for Harvard University’s Mentorship Project, showcasing her dedication to fostering the next generation of scholars. Her formal qualifications to practice civil engineering were solidified by passing the state examination at the Polytechnic University of Marche in 2016. These accomplishments underscore her dual commitment to practical engineering applications and academic mentorship.

Contributions and Research Focus 🔄

Dr. Cervellieri’s research lies at the intersection of energy analysis and comfort optimization in residential and rural buildings. Her studies delve into established metrics such as PMV (Predicted Mean Vote) and PPD (Percentage of People Dissatisfied), as well as the development of novel indices like OTE and OEE. These indices, drawn from the manufacturing sector, have been innovatively adapted to enhance energy efficiency and occupant comfort. Her international collaborations have facilitated the development of groundbreaking algorithms, as evidenced by her impressive publication record. Dr. Cervellieri’s contributions include six publications in international scientific journals, ten conference proceedings, six books, two posters, and a national journal article.

Accolades and Recognition 🏆

Dr. Cervellieri’s academic achievements have been consistently recognized. Her selection as a mentor for prestigious projects like the Harvard Mentorship Program underscores her global standing as an educator and researcher.

Impact and Influence 💡

Dr. Cervellieri has significantly influenced the field of sustainable engineering through her participation in international projects. She contributed to the EU H2020 Project "ENCORE," which focused on energy-aware BIM Cloud Platforms for efficient building renovation. Additionally, her work in the EFRE-FESR Project "Brotweg" explored innovative mechanized solutions for high-altitude cereal production in alpine environments. These projects reflect her commitment to sustainable development and technological advancement. Her participation in the Erasmus+ Virtual Exchange project (2018-2020) exemplifies her dedication to fostering intercultural learning and virtual collaboration, providing young minds with transformative educational experiences.

Legacy and Future Contributions 🌱

Dr. Alice Cervellieri’s legacy is one of interdisciplinary excellence and global collaboration. Her contributions to energy-efficient building systems and educational mentorship are poised to leave a lasting impact on the fields of civil engineering and sustainable development. With her commitment to innovation and fostering cross-cultural dialogue, she is well-positioned to continue influencing academia and industry for years to come. As she advances her career, Dr. Cervellieri’s work will undoubtedly inspire future engineers and researchers to embrace sustainability and technological innovation as integral components of their practice.

 

Publications

📄 A Feed-Forward Back-Propagation Neural Network Approach for Integration of Electric Vehicles into Vehicle-to-Grid (V2G) to Predict State of Charge for Lithium-Ion Batteries
Authors: Alice Cervellieri
Journal: Energies
Year: 2024

📄 On the Synthesis of Holonic Management Trees
Authors: Pirani, M., Bonci, A., Cervellieri, A., Longhi, S.
Journal: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)
Year: 2021

📄 Innovative Approach in Cyber-Physical System for Smart Building Efficiency Monitoring
Authors: Bonci, A., Cervellieri, A., Longhi, S., Pirani, M.
Journal: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)
Year: 2021

📄 The Double Propeller Ducted-Fan, an UAV for Safe Infrastructure Inspection and Human-Interaction
Authors: Bonci, A., Cervellieri, A., Longhi, S., Nabissi, G., Antonio Scala, G.
Journal: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)
Year: 2020

📚 Brotweg—A Path of Bread in an Alpine Environment: New Mechanical Solutions for Grain Processing in Steep Mountain Slopes
Authors: Mayr, S., Brozzi, R., Cervellieri, A., Sacco, P., Mazzetto, F.
Journal: Lecture Notes in Civil Engineering
Year: 2020

 

Seyed Hamidreza Ghaffar | Engineering | Best Paper Award

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Prof. Seyed Hamidreza Ghaffar | Engineering | Best Paper Award

University of Birmingham | United Arab Emirates

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🎓 Early Academic Pursuits

Prof. Seyed Hamidreza Ghaffar's academic journey began with a Bachelor of Engineering in Civil Engineering, which he completed with First Class Honors in 2012 from Brunel University London (BUL), UK. His early commitment to excellence was evident as he won the prestigious Graham Hawkes award for the best final year project in his department, along with the Institute of Structural Engineers Prize for the best structural engineering solution. He continued his studies at BUL, obtaining a PhD in Civil Engineering Material Sciences in 2016, fully sponsored by the Industrial Cooperative Awards in Science & Technology (CASE). His doctoral research laid the foundation for his future endeavors in sustainable construction and innovative materials.

💼 Professional Endeavors

Prof. Ghaffar's professional career is marked by his rapid ascent in academia and research. He began as a Research Assistant at BUL, working on EU-funded projects before progressing to a Post-Doctoral Research Associate. In 2017, he was appointed as a Lecturer in Civil Engineering at BUL, where he advanced to Senior Lecturer and then Reader (Associate Professor). In September 2023, he joined the University of Birmingham, Dubai, as an Associate Professor and Programme Director of MSc Construction Management. His roles have extended beyond academia; from 2021 to 2024, he served as the Head of Sustainable Materials and R&D at Print4D, Czech Republic, contributing to cutting-edge advancements in 3D printing and sustainable materials.

🏗️ Contributions and Research Focus

Prof. Ghaffar's contributions to civil engineering are significant, particularly in the realm of sustainable construction. As the founder and director of the 'Additive Manufacturing Technology in Construction' (AMTC) research center, he has been at the forefront of integrating low-carbon materials and valorizing construction and demolition waste through materials science and 3D printing. His research, which has been supported by over £2 million in grants, focuses on circular economy management, low-carbon technologies, and sustainable construction. Prof. Ghaffar has been both the principal and co-investigator on various high-impact projects, resulting in more than 75 publications that have shaped the discourse in construction technology.

🏆 Accolades and Recognition

Throughout his career, Prof. Ghaffar has received numerous awards and recognition for his work. In 2019, he received the Award for Excellence and Teaching Support of the Year at BUL. His leadership in research and education has also been acknowledged through his election as a Fellow Member of the Institution of Civil Engineers (FICE) in 2023, Chartered Engineer status with the ICE, and Fellow of the Higher Education Academy (FHEA). Additionally, his role as an expert evaluator for Horizon Europe by the European Commission underscores his standing as a respected authority in his field.

🌍 Impact and Influence

Prof. Ghaffar's impact extends beyond academia, influencing the construction industry and policy through his research on sustainable materials and low-carbon technologies. His work aligns with global efforts to promote a circular economy, making him a key figure in the push towards more sustainable construction practices. As an educator, his initiatives, such as the Continuing Communication & Engagement program, have significantly improved student satisfaction and engagement, further solidifying his influence in academic leadership.

🔮 Legacy and Future Contributions

Looking ahead, Prof. Ghaffar's legacy is likely to be defined by his pioneering work in sustainable construction and his commitment to advancing the field through innovation. His ongoing research at the AMTC research center, along with his leadership roles, positions him to continue making transformative contributions to civil engineering. His work not only shapes current practices but also paves the way for future advancements, ensuring a lasting impact on the industry and academia alike.

 

Publications 📚

📄 Pathways to Circular Construction: An Integrated Management of Construction and Demolition Waste for Resource Recovery

Author: Seyed Hamidreza Ghaffar, Matthew Burman, Nuhu Braimah
Journal: Journal of Cleaner Production
Year: 2020

📄 Overcoming Barriers to Implementing Building Information Modelling in Kuwait’s Ministry of Public Works: A Framework for Sustainable Construction

Author: Al-Raqeb, H., Ghaffar, S.H., Haitherali, H., Gopakumar, A.
Journal: Buildings
Year: 2024

📄 Alkali Activated Materials with Recycled Unplasticised Polyvinyl Chloride Aggregates for Sand Replacement

Author: El-Seidy, E., Sambucci, M., Chougan, M., Valente, M., Ghaffar, S.H.
Journal: Construction and Building Materials
Year: 2023

📄 Recycled Brick Aggregates in One-Part Alkali-Activated Materials: Impact on 3D Printing Performance and Material Properties

Author: Al-Noaimat, Y.A., Chougan, M., Albar, A., Al-Kheetan, M., Ghaffar, S.H.
Journal: Developments in the Built Environment
Year: 2023

📄 Upcycling End-of-Life Bricks in High-Performance One-Part Alkali-Activated Materials

Author: Al-Noaimat, Y.A., Chougan, M., Al-Kheetan, M.J., Wong, H.S., Ghaffar, S.H.
Journal: Developments in the Built Environment
Year: 2023

 

Chaojia Liu | Engineering | Best Researcher Award

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Dr. Chaojia Liu | Engineering | Best Researcher Award

Air force Engineering University | China

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Early Academic Pursuits

Dr. Chaojia Liu's educational journey began at the prestigious Air Force Engineering University, where he pursued a Doctor of Philosophy in Transportation Engineering from September 2021 to December 2024. His doctoral dissertation, supervised by Prof. Xiaolei Chong, focuses on the theoretical model, finite element numerical simulation, field test, and application research of soil runways. Titled "Analysis of aircraft tire load effect and wheel-soil mechanism on soil runway: theoretical and empirical research," his dissertation reflects his deep interest in transportation engineering, specifically in the dynamics of aircraft tire loads on soil runways.

Professional Endeavors

Throughout his academic career, Dr. Liu has made significant contributions to various high-impact journals, with publications that span a wide range of topics, including the mechanical properties of concrete and soil runways, advanced numerical analysis, and field investigations. His notable works include "Improved design, development and field investigation of the wheel-soil interaction measurement system under aircraft load" published in Measurement (JCR Q1, IF=5.6), "Numerical investigation of thermal parameter characteristics of the airfield runway adherent layer in permafrost region of Northeast China" in Case Studies in Thermal Engineering (JCR Q1, IF=6.8), and "Characterizing fatigue damage behaviors of concrete beam specimens in varying amplitude load" featured in Case Studies in Construction Materials (JCR Q1, IF=6.2).

Contributions and Research Focus

Dr. Liu's research primarily revolves around the mechanical and thermal behavior of materials under various conditions, focusing on soil runways, reinforced concrete, and other construction materials. His work has provided valuable insights into civil engineering and transportation infrastructure, contributing significantly to the field. He has been involved in numerous high-impact projects, including the National Natural Science Foundation Project on the coupling mechanism and model development in unsaturated loess, and the National Nature Foundation Youth Program on the reinforcement mechanism and wheel-soil model of hybrid fiber-reinforced soil runways.

Accolades and Recognition

Dr. Liu's dedication and excellence in his field have been recognized through numerous awards and honors, including the China National Scholarship (Dec 2022), First Prize in the 3rd National Airport Planning and Design Competition (Dec 2022), and Meritorious Winner in the China Civil Aviation "Chang Enjoy" Cup Airport Planning and Design Innovation and Creativity International Competition (Dec 2023). Additionally, he has received Best Paper Awards at various prestigious forums, such as the 14th Guangdong-Hong Kong-Macao Greater Bay Area Doctoral Students Nanshan Academic Forum and the 1st "Transportation +" Interdisciplinary Academic Forum for Doctoral Students.

Impact and Influence

Dr. Liu's work has had a significant impact on the field of transportation engineering. His research on the mechanical properties of construction materials and soil runways has advanced the understanding and development of more durable and efficient infrastructure. His contributions to the National Natural Science Foundation and various key scientific research projects have further solidified his influence in the academic community.

Legacy and Future Contributions

Dr. Liu's legacy is marked by his innovative approach to solving complex engineering problems and his commitment to advancing knowledge in his field. As he continues his professional journey, his future contributions are expected to further enhance the understanding of material behavior and infrastructure resilience. His ongoing research projects, such as the study on structural performance and deterioration law of soil emergency runways for Universiade aircraft, indicate a promising future filled with groundbreaking discoveries and advancements.

 

Notable Publications

  • Article: Improved design, development and field investigation of the wheel-soil interaction measurement system under aircraft load
    • Authors: Chaojia Liu, Xiaolei Chong, Lei Liang, Zhenglei Chen, Zihan Wang, Yan Li, Wei Liu
    • Journal: Measurement
    • Year of Publishing: 2024
    • Citations: 0

 

  • Article: An Airfield Area Layout Efficiency Analysis Method Based on Queuing Network and Machine Learning
    • Authors: Chen, Z., Chong, X., Liu, C., Wang, G., Tan, W.
    • Journal: Buildings
    • Year of Publishing: 2024, 14(3), 628
    • Citations: 0

 

  • Article: Characterizing fatigue damage behaviors of concrete beam specimens in varying amplitude load
    • Authors: Liang, L., Liu, C., Cui, Y., Wang, Z., Yao, Z.
    • Journal: Case Studies in Construction Materials
    • Year of Publishing: 2023, 19, e02305
    • Citations: 1

 

  • Article: Microwave heating efficiency and frost resistance of concrete modified with powder absorbing materials
    • Authors: Wang, Z., Bai, E., Ren, B., Liu, J., Huang, H.
    • Journal: Construction and Building Materials
    • Year of Publishing: 2023, 379, 131145
    • Citations: 4

 

  • Article: Dynamic mechanical properties of carbon fiber reinforced geopolymer concrete at different ages
    • Authors: Wang, Z., Bai, E., Huang, H., Liu, C., Wang, T.
    • Journal: Ceramics International
    • Year of Publishing: 2023, 49(1), pp. 834–846
    • Citations: 13

 

 

 

Deepesh Bansal | Engineering | Excellence in Environmental Sustainability Research

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Dr. Deepesh Bansal | Engineering | Excellence in Environmental Sustainability Research

Indian Institute of Technology Delhi | India

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Early Academic Pursuits

Dr. Deepesh Bansal's academic journey began with a Bachelor's in Civil Engineering from Deenbandhu Chhotu Ram University of Science & Technology, Murthal. He further pursued a Master's and a Ph.D. in Geotechnical Engineering from prestigious Indian Institutes of Technology (IIT), Roorkee, and Delhi, respectively.

Professional Endeavors

Dr. Bansal's professional career encompasses a diverse range of roles, from working as an Engineer at Larsen and Toubro Ltd. to serving as an Assistant Professor at various institutions. Currently, he is a Research Associate at the Indian Institute of Technology, Delhi, where he focuses on sustainable geotechnical solutions.

Contributions and Research Focus

His research primarily revolves around utilizing waste materials, such as incineration bottom ash, in civil engineering applications. He has extensively studied the physicochemical and geoenvironmental characteristics of incineration bottom ash, aiming to assess its potential for reuse in flexible pavements, embankments, and reinforced soil structures.

Accolades and Recognition

Dr. Bansal has received numerous awards and accolades for his exemplary research contributions. These include Research Scholar Travel Award, ISSMGE Foundation Award, and Research Excellence Travel Award, showcasing his recognition in the academic community.

Impact and Influence

Through his research publications in esteemed journals and presentations at international conferences, Dr. Bansal has significantly contributed to the field of geotechnical engineering. His work not only addresses crucial environmental challenges but also offers sustainable solutions for infrastructure development.

Legacy and Future Contributions

Dr. Bansal's legacy lies in his dedication to sustainable engineering practices and his commitment to nurturing future talents in the field. With his expertise in geotechnical engineering and waste valorization, he aims to continue making impactful contributions towards building a more sustainable future for the construction industry.

Notable Publications

Sustainable utilization of incineration bottom ash in pavement construction: Environmental impacts and life cycle assessment 2024

Optimizing MSW incineration bottom ash reuse: A study on treated wastewater washing and leaching control 2024

Waste to Resource: Enviro-Mechanical Suitability of MSW Incineration Bottom Ash in Flexible Pavements and Embankments 2024

Characterization of MSW incineration bottom ash for use as structural fill in reinforced soil structures: Geoenvironmental, geotechnical and economical assessment 2023 (4)

Environmentally responsible disposal and reuse of MSW incineration bottom ash: assessment from two Indian plants 2023