Pyrolysis of biomass waste

Pyrolysis of biomass waste

Advisor/s

A/Prof Ulf Schmitz, Dr Daniel Xing, Prof Andreas Lopata

College or Research Centre

College of Medicine & Dentistry; College of Public Health, Medical & Veterinary Science

Summary of Project

Join our dynamic research team at JCU and the Townsville Cancer Centre (TCC) for an exciting HDR (Higher Degree by Research) project that merges cutting-edge technology with critical clinical applications. Our umbrella project encompasses two groundbreaking research initiatives aimed at improving cancer treatment outcomes and patient care. Project 1: Enhancing Glioblastoma Treatment with Magnetic Resonance and Radiotherapy Glioblastoma (GBM) remains one of the most aggressive brain cancers, with limited survival rates despite recent advances in treatment. Our research focuses on the novel application of tumour treating fields and the integration of a magnetic resonance linear accelerator (MRL) to explore the biological effects of combining magnetic fields with ionizing radiation. We aim to uncover how these combined modalities impact tumour and immune cell interactions, ultimately seeking to improve GBM treatment efficacy. Project 2: Developing Blood-Based Surveillance for HPV-Associated Oropharyngeal Cancer Human papillomavirus (HPV)-associated oropharyngeal squamous cell carcinoma (HPV-OPSCC) presents unique challenges in post-treatment surveillance, particularly for patients in remote regions. Our research aims to develop and validate a blood-based circulating HPV-DNA (cHPV-DNA) test using next-generation sequencing (NGS). This innovative approach will enable earlier detection of recurrent disease, reduce patient burden, and improve survival outcomes for HPV-OPSCC patients.

Pyrolysis is an environmental sustainable to deal with the ever increasing amount of biomass waste. Pyrolysis minimizes the weight and volume of biomass waste while producing value-added products such as biogas, bio-oil and biochar. The aim of this project is to deeply understand the impact of pyrolysis conditions (microwave and conventional pyrolysis) on pyrolysis by-products distribution and properties and study the economics of pyrolysis.

The project will have different components and involves different fields/ academic disciplines such as Electrical Engineering, Chemical Engineering, Chemistry, Physics etc. Based on the candidate’s field of study, and research interest, the objectives of the project will be designed.

Key Words

brain cancer; head and neck cancer; radiation oncology; biomarker; bioinformatics next generation sequencing

Would suit an applicant who

We invite motivated students with a passion for oncology, molecular biology, and innovative technology to apply. This is a unique opportunity to contribute to transformative research with the potential to significantly impact patient care and treatment outcomes.

has a relevant BE Honours degree or Master in Chemical Engineering, Materials Engineering or equivalent.

Updated: 13 May 2022