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Dr. Muhammad Ali

Assistant Professor (Civil Struct & Env. Eng.)
CIVIL ENGINEERING BUILDING (NEW)
      
Profile Photo

Dr. Muhammad Ali

Assistant Professor (Civil Struct & Env. Eng.)
CIVIL ENGINEERING BUILDING (NEW)

 MUHAMMAD.ALI@tcd.ie

 3531896 1743


Dr Ali joined Trinity College Dublin in Jan 2022 as an Assistant Professor. He, an environmental engineer by profession, holds an MS degree in Environmental Engineering from National University of Science and Technology (NUST), Pakistan. Furthermore, he earned a PhD in Environmental Engineering from Hokkaido University, Japan. With experience in both industry and academia, Dr Ali has made significant contributions to his field. In addition to his academic pursuits, he also co-founded a start-up company based at King Abdullah University of Science and Technology (KAUST), Saudi Arabia. His research primarily revolves around understanding microbial interactions within natural and engineered ecosystems. His aim is to deepen our understanding of these interactions and explore their broader implications. Moreover, his expertise lies in developing innovative environmental biotechnologies that effectively tackle and mitigate environmental pollution. Through his academic accomplishments, practical experience, and passion for environmental engineering, Dr Ali remains devoted to creating sustainable solutions that address the pressing environmental challenges of our time.
Project Title
 Conversion of ammonium (NH4+) to green hydrogen using electroactive anammox bacteria
From
01-Feb-2023
To
31-Jan-2026
Summary
Funding Agency
SEAI
Project Title
 Refined estimates of atmospheric emissions associated with wastewater treatment processes for Ireland
From
To
Summary
Funding Agency
EPA
Project Title
 Efficient and effective biofiltration of methane generated from on site waste water treatment system
From
To
Summary
Funding Agency
SFI
Programme
SFI National Challenge Fund
Project Title
 Investigating microbial community composition in cores of gas fields in Ireland
From
2023
To
2023
Summary
Funding Agency
dCarbonX Ireland Limited
Project Title
 Consultancy on a KAUST project - scaling up a wastewater treatment technology
From
1st April 2022
To
31st December 2022
Summary
Funding Agency
King Abdullah University of Science and Technology (KAUST) Saudi Arabi
Project Type
Consultancy

Details Date
Serving on the editorial board as Associate Editor in Frontier Microbiology for Microbiotechnology section (speciality section of Frontiers in Microbiology, Frontiers in Bioengineering and Biotechnology and Frontiers in Environmental Science)
Serving as reviewer for Water Research, Frontier Microbiology, Environmental Science and Technology (ES&T), Environmental Science and Technology Water (ES&T Water) etc.
External expert on an interview panel for the hiring of Director of Civil Engineering Apprenticeship for Atlantic Technological University, Sligo, Ireland. 2024
Co-Founder NuRain September 2024
Guest Associate Editor for Frontiers in Membrane Science and Technology "Innovative Membrane Technology for Resource Recovery from Wastewater." May 2024
Lead Topic Editor for Frontiers in Microbiology "Microbial Biotechnologies for Efficient Wastewater Treatment and Resource Recovery" May 2024
Details Date From Date To
Members of Engineers Ireland 2022 2025
International Water Association (IWA) 2025
Pakistan Council for Architects and Town Planners 2025
Mohamed A.Y.A, Gill Laurenc, Monleon Alejandr, Pronk Mari, van Loosdrecht Mar, Saikaly Pascal E, Ali Muhamma, Genome-resolved metatranscriptomics unveils distinct microbial functionalities across aggregate sizes in aerobic granular sludge, Environmental Science and Ecotechnology, 25, 2025, p100560-, Journal Article, PUBLISHED  DOI  URL
Ruiz-Haddad Luci, Shaw Dario Range, Ali Muhamma, Pronk Mari, van Loosdrecht Mark C.M, Saikaly Pascal E, Characterization of the core microbial community across different aggregate sizes in full-scale aerobic granular sludge plants and their relevance to wastewater treatment performance, Water Research, 274, 2025, p123036-, Journal Article, PUBLISHED  DOI  URL
Genomics Tools to Study Membrane-Based Systems in, editor(s)Sergio G. Salinas-Rodríguez; Loreen O. Villacorte , Experimental Methods for Membrane Applications in Desalination and Water Treatment, London UK, 2024, [Muhammad Ali, Lucia Ruiz Haddad, Mohamed Fauzi Haroon, Pascal E. Saikaly], Book Chapter, PUBLISHED  TARA - Full Text  URL
Lucia Ruiz-Haddad, Muhammad Ali, Mario Pronk, Mark C.M. van Loosdrecht, Pascal E. Saikaly, Demystifying polyphosphate-accumulating organisms relevant to wastewater treatment: A review of their phylogeny, metabolism, and detection, Environmental Science and Ecotechnology, 2024, Journal Article, PUBLISHED
Rehman, Zahid Ur and Ghaani, Masoud and Mohamed, Ahmed Y. A. and Gallagher, John and Saikaly, Pascal E. and Ali, Muhammad , Alginate-like exopolysaccharides extracted from different waste sludges exhibit varying physicochemical and material properties, Frontiers in Microbiology, 15, 2024, Journal Article, PUBLISHED  DOI
Zhang Wenxian, Liang Wenzhon, Jin Jiaro, Meng Shujua, He Ziqian, Ali Muhamma, Saikaly Pascal E, Filtration performance of biofilm membrane bioreactor: Fouling control by threshold flux operation, Chemosphere, 362, 2024, p142458-, Journal Article, PUBLISHED  DOI  URL
Saadatinavaz Fateme, Alomari Mohammed A., Ali Muhammad, Saikaly Pascal E., Striking a Balance: Decentralized and Centralized Wastewater Treatment Systems for Advancing Sustainable Development Goal 6 , Advanced Energy and Sustainability Research , n/a , (n/a ), 2024, p2400097 -, Journal Article, PUBLISHED  DOI  URL
Ali, Muhammad Singh, Yogesh Fortunato, Luca Rehman, Zahid Ur Manjunath, Sarvajith Vrouwenvelder, Johannes S. Pronk, Mario van Loosdrecht, Mark C. M. Saikaly, Pascal E., Performance Evaluation of a Pilot-Scale Aerobic Granular Sludge Integrated with Gravity-Driven Membrane System Treating Domestic Wastewater, ACS ES&T Water, 3, (8), 2023, p2681 - 2690, Journal Article, PUBLISHED  DOI
Alshahri Abdullah H, Obaid M, Dehwah Abdullah H.A, Missimer Thomas M, Ali Muhamma, Ghaffour Noreddin, Combination of advanced coagulation Fe(VI) and UF membrane to effectively remove organic compounds and mitigate biofouling during harmful algal blooms, Desalination, 565, 2023, p116882-, Journal Article, PUBLISHED  DOI  URL
Alejandro Javier Criado Monleon, Jan Knappe, Celia Somlai, Carolina Ospina Betancourth, Muhammad Ali, Thomas P. Curtis, Laurence William Gill, Spatial Variation of the Microbial Community Structure of On-Site Soil Treatment Units in a Temperate Climate, and the Role of Pre-treatment of Domestic Effluent in the Development of the Biomat Community, Front. Microbiol., 13, (915856), 2022, Journal Article, PUBLISHED
  

Page 1 of 5
Muhammad Ali, Sher Jamal Khan, Muhammad Ukasha , Simulation of the impacts of land-use change on surface runoff: Lai Nullah Basin in Islamabad, Pakistan, 1, Saarbrücken, Germany, VDM Verlag Dr. Müller, 2011, Book, PUBLISHED

  


Award Date
Trinity Innovation Award 2024 2024
"40 Under 40" honorees for 2024 by American Academy of Environmental Engineers and Scientists (AAEES) 2024
Research Ally Prize 2024 award 2024
Nominated for Award for Excellence in Research Student Supervision 2024/25 2025
My research focuses on optimizing and developing sustainable environmental biotechnologies to fully harness the biochemical potential and metabolism of microbial communities for resource recovery (reclaimed water, energy, biochemicals) from waste streams. Environmental biotechnology and microbial ecology are naturally tied together. Understanding the microbial ecology of microbial communities is essential to harness their power for resource recovery fully. I work at the interface of microbiology, microbial ecology, and bioprocess engineering. My primary focus is to understand these water-related engineered ecosystems using advanced omics tools (metagenomics and metatranscriptomics, third-generation (long-read) sequencing), stable isotope analysis, molecular techniques, and mathematical modeling. A better understanding of these bioprocesses is used to optimize bioprocess to convert waste to resources (reclaimed water, energy, biochemicals) with minimum energy inputs, resources, and carbon footprint.