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Staff Profile

Dr Sabeeha Khadaroo

Lecturer in Chemical Engineering

  • Email: sabeeha.khadaroo@ncl.ac.uk
  • Address: Room- C530
    Mertz Court
    School of Engineering
    Faculty of Science, Agriculture and Engineering
    Newcastle University
    Newcastle upon Tyne
    NE1 7RU
Background

Qualifications:

Graduate Certificate in Learning & Teaching (Higher Education) (2024) - Swinburne University of Technology (Australia)

PhD (2021)- Monash University (Malaysia), School of Chemical Engineering

Thesis: Integration of thermal pretreatment and dewatering in the anaerobic co-digestion of Palm Oil Mill Effluent (POME) for enhanced treatment performance in terms of biogas production and treated effluent quality

Bachelor of Chemical Engineering (Hons) (2015)- Curtin University (Australia)


Previous Positions:

Head of Department (Chemical Engineering)- Swinburne University of Technology Sarawak

Lecturer (Chemical Engineering)- Swinburne University of Technology Sarawak

Senior Chemical Engineer (R&D)- SIW Manufacturing Sdn Bhd

 

Professional Memberships:

Higher Education Academy – Fellow (FHEA)

Engineers Australia – Chartered Professional Engineer NER APEC Engineer IntPE (Aus)

Board of Engineers Malaysia (BEM) – Graduate Member


Awards:

International Invention, Innovation & Technology Exhibition ITEX 2019, Silver Medal in Environment & Energy Category, Malaysia

Women Leadership Conference: Engineering & IT Leadership Award 2018, Monash University Malaysia

Australian Water Association Undergraduate Water Prize Finalist Award 2014, Western Australia

Research

I specialise in sustainable waste management, bioenergy and biofuel production, and process optimisation. My research explores advanced pretreatment strategies, including thermal conditioning and solid-liquid ratio modifications, to enhance anaerobic digestion efficiency, biogas yield, and effluent quality. Beyond wastewater treatment, I have worked on integrating innovative dewatering techniques to improve sludge handling and energy recovery, contributing to developing more efficient and sustainable treatment processes. Additionally, I have examined the role of artificial intelligence (AI) in optimising wastewater treatment processes, aligning with Industry 4.0 advancements in environmental sustainability.


In recognition of my contributions to a novel treatment process, I have a patent (Patent Number: PI 2019002291) for a process and technology for regulating anaerobic digesters. This process ensures consistent performance in removing contaminants and generating biogas from wastewater.


My research also encompasses biomass, bioenergy, and biofuels, including sustainable aviation fuels (SAF), where I studied emerging technologies and policy frameworks that support the transition to low-carbon alternatives. I have also investigated the use of heterogeneous catalysts in biodiesel production. Additionally, I have examined green solvents for lignocellulosic biomass pretreatment, providing insights into bio-conversion pathways aligned with circular economy principles. Currently, I am researching biohydrogen production from bioprocesses to advance sustainable energy solutions.


My work integrates chemical engineering, biotechnology, and sustainability principles to develop practical solutions for industrial waste management and renewable energy production. I am committed to bridging the gap between academic innovation and industrial application, driving advancements in resource efficiency and environmental stewardship.


Google Scholar: Here

ORCID: Here

Teaching

Sustainable Chemical Engineering Msc Modules


CME8412 - Green Chemistry & Complementary Chemistry/Chem Eng Skills

CME8413 - Sustainable Industry II: Business and Environmental Management

CME8414 - Advanced Design Project in Sustainable Chemical Engineering

CME8419 - Biorefining and Carbon Capture, Utilisation and Storage



Publications