Rabaka Sultana | Environmental Engineering | Excellence in Innovation

Published on by Environmental Scientists

Mrs. Rabaka Sultana | Environmental Engineering | Excellence in Innovation

Research graduate, Charles Darwin University, Australia

Rabaka Sultana is an accomplished academic and construction professional recognized for advancing sustainable building practices through pioneering research, innovative teaching, and industry leadership. With expertise in life cycle assessment (LCA) and integrating traffic and machinery noise impacts into construction assessments, she contributes to academic knowledge and practical solutions for sustainable development.

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Education 🎓

Rabaka holds a PhD in Civil Engineering (2021-present) from Charles Darwin University, a Master of Civil and Environmental Engineering from the University of South Australia (2015), and a Bachelor of Civil Engineering from Bangladesh University of Engineering and Technology (2005). She also has various certificates in training and assessment, building construction, and early childhood education.

Experience đź’Ľ

Rabaka has diverse experience as a lecturer, building supervisor, and educator. She has worked as a Lecturer at Sunbeam International College, Building Supervisor at Kingsford Homes, Teaching Assistant at Charles Darwin University, and Lecturer at Daffodil International University. She has also led projects focusing on quality, environmental impact, and client satisfaction in the construction industry.

Research Interest 🔍

Rabaka Sultana’s research focuses on advancing sustainable construction practices through innovative approaches. Her work encompasses life cycle assessment (LCA), a methodology used to evaluate the environmental impacts of buildings and construction materials throughout their entire life cycle. She is also dedicated to integrating environmental impacts, including noise pollution, into construction evaluation frameworks. This involves developing comprehensive assessment tools that consider not only traditional factors like energy consumption and material usage but also the effects of noise on human health and the environment. By exploring these areas, Rabaka aims to contribute to the development of more sustainable and environmentally responsible construction practices.

Awards 🏆

Rabaka received the Award for Developing Online Platform for Engineering Course (2019) from Daffodil International University, recognizing her innovative and efficient online platform to deliver engineering courses.

Publications đź“„

Sultana, R., Rashedi, A., Khanam, T. (2022). “Life Cycle Environmental Sustainability and energy assessment of Timber Wall Construction: A comprehensive overview.” Sustainability, 14(7), 4161. (link unavailable)

Sultana, R., Khanam, T., Rashedi, A., Rajabipour, A. (2025). “Integrating Noise into Life Cycle Assessment for Sustainable High-Rise Construction: A Comparative Study of Concrete, Timber, and Steel Frames in Australia.” Sustainability, 17(9), 4040.

Conclusion

Based on her research achievements, innovative teaching methods, and industry experience, Rabaka Sultana is a suitable candidate for the Research for Excellence in Innovation award. Her dedication to advancing sustainable building practices and her commitment to education and mentorship demonstrate her potential to make a lasting impact in her field. With further emphasis on interdisciplinary collaboration and practical application, she is well-positioned to continue driving innovation in sustainable construction.

 

Hans Jørgen Henriksen | Water Resources | Best Researcher Award

Published on by Environmental Scientists

Mr. Hans Jørgen Henriksen | Water Resources | Best Researcher Award

Hydrologist at Geological Survey of Denmark and Greenland GEUS, Denmark

Mr. Hans Jørgen Henriksen is a seasoned hydrologist with extensive experience in both national and international research. He earned his M.Sc. in Civil Engineering with a specialization in Hydrology from the Technical University of Denmark in 1982 and later completed a Master’s in Psychology of Organization from Roskilde University in 2005. Since 1993, he has been working as a Senior Advisor in the Department of Hydrology at the Geological Survey of Denmark and Greenland (GEUS). Mr. Henriksen has also held positions at organizations such as Rambøll and Hedeselskabet earlier in his career. He has led and participated in numerous high-impact projects related to climate change adaptation, groundwater modeling, and disaster risk reduction. With a publication record of 39 papers and over 2,600 citations, Mr. Henriksen’s work is highly regarded in the field of hydrology and environmental science.

Profile

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Education 🎓

Mr. Hans Jørgen Henriksen holds a Master of Science (M.Sc.) in Civil Engineering with a specialization in Hydrology from the Technical University of Denmark, which he completed in 1982. In addition to his technical expertise in hydrology, he pursued further interdisciplinary education and earned a Master’s in Psychology of Organization (MPO) from Roskilde University in 2005. This combination of engineering and organizational psychology equips Mr. Henriksen with a unique perspective on both the technical and managerial aspects of hydrological research and projects.

Experience đź’Ľ

Mr. Hans Jørgen Henriksen has a distinguished career in hydrology, spanning several decades with significant contributions to both national and international research projects. Since 1993, he has served as a Senior Advisor in the Department of Hydrology at the Geological Survey of Denmark and Greenland (GEUS), where he has been instrumental in advancing hydrological research and climate change adaptation strategies. His past roles include working as a Hydrologist at Rambøll (1989-1993), Tage Sørensen (1987-1989), and Hedeselskabet (1982-1987), where he focused on hydrological and environmental assessments. Mr. Henriksen has been the project leader and a key participant in various high-profile projects, such as the NORDRESS project (2014-2019) on resilience and societal security, the AquaClew project (2017-2020) focused on advancing climate services for European water systems, and the NAIAD project (2017-2019), which assessed nature-based insurance values. Additionally, he has contributed to the development of the Hydrological Information and Prognosis System (HIP) as part of Denmark’s Digital Strategy. His leadership and expertise have been central to the success of multiple EU research initiatives, including NEWATER (2006-2009), which addressed adaptive management strategies under uncertainty.

Research Interests 🔍

Mr. Hans Jørgen Henriksen’s research interests are deeply rooted in hydrology, climate change adaptation, and the integration of advanced modelling techniques for water management. His primary focus is on hydrological modelling, particularly the effects of climate change on groundwater and extreme runoff. He has explored innovative approaches in shallow groundwater level modelling and integrated assessment, utilizing advanced tools such as the HUGIN QGIS plug-in for machine learning. Mr. Henriksen is also involved in developing digital twin technologies for climate change adaptation, water management, and disaster risk reduction. His work emphasizes the use of high-resolution water table modelling and knowledge-guided decision-making using machine learning algorithms, such as gradient boosting decision trees. Additionally, he has conducted significant research on climate projections, aquifer resilience, and river basin management, with an aim to improve the management and sustainability of water resources under changing environmental conditions.

Publications Top Notes đź“š

Title: Selecting among five common modelling approaches for integrated environmental assessment and management

  • Authors: RA Kelly, AJ Jakeman, O Barreteau, ME Borsuk, S ElSawah, SH Hamilton, et al.
  • Journal: Environmental Modelling & Software
  • Volume: 47
  • Pages: 159-181
  • Cited by: 833
  • Year: 2013

Title: Modelling guidelines––terminology and guiding principles

  • Authors: JC Refsgaard, HJ Henriksen
  • Journal: Advances in Water Resources
  • Volume: 27
  • Issue: 1
  • Pages: 71-82
  • Cited by: 590
  • Year: 2004

Title: Methodology for construction, calibration and validation of a national hydrological model for Denmark

  • Authors: HJ Henriksen, L Troldborg, P Nyegaard, TO Sonnenborg, JC Refsgaard, et al.
  • Journal: Journal of Hydrology
  • Volume: 280
  • Issue: 1-4
  • Pages: 52-71
  • Cited by: 478
  • Year: 2003

Title: Quality assurance in model based water management–review of existing practice and outline of new approaches

  • Authors: JC Refsgaard, HJ Henriksen, WG Harrar, H Scholten, A Kassahun
  • Journal: Environmental Modelling & Software
  • Volume: 20
  • Issue: 10
  • Pages: 1201-1215
  • Cited by: 244
  • Year: 2005

Title: Public participation modelling using Bayesian networks in management of groundwater contamination

  • Authors: HJ Henriksen, P Rasmussen, G Brandt, D Von Buelow, FV Jensen
  • Journal: Environmental Modelling & Software
  • Volume: 22
  • Issue: 8
  • Pages: 1101-1113
  • Cited by: 236
  • Year: 2007

Title: Assessment of exploitable groundwater resources of Denmark by use of ensemble resource indicators and a numerical groundwater–surface water model

  • Authors: HJ Henriksen, L Troldborg, AL Højberg, JC Refsgaard
  • Journal: Journal of Hydrology
  • Volume: 348
  • Issue: 1-2
  • Pages: 224-240
  • Cited by: 206
  • Year: 2008

Title: Bayesian networks in environmental and resource management

  • Authors: DN Barton, S Kuikka, O Varis, L Uusitalo, HJ Henriksen, M Borsuk, et al.
  • Journal: Integrated Environmental Assessment and Management
  • Volume: 8
  • Issue: 3
  • Pages: 418-429
  • Cited by: 205
  • Year: 2012

Conclusion

Mr. Hans Jørgen Henriksen’s long-standing contributions to hydrology, climate change research, and water management, alongside his ability to integrate innovative tools like digital twins and machine learning into his research, make him a prime candidate for the Research for Best Researcher Award. His career is marked by influential research, leadership in high-profile projects, and a commitment to addressing global environmental challenges through science and technology.