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01 February 2024 | Story Lacea Loader | Photo SUPPLIED
Prof Prince Ngobeni
Prof Prince Ngobeni, newly appointed Campus Principal of the UFS Qwaqwa Campus.

The University of the Free State (UFS) has appointed Prof Prince Ngobeni as Principal of the Qwaqwa Campus as from 1 February 2024.

Prof Ngobeni completed his first qualification in Analytical Chemistry at the then Technikon North-West before furthering his studies at the then Technikon Pretoria. He completed a DTech in Chemistry at the Tshwane University of Technology (TUT) in 2003. In 2016, he enrolled for a Doctor of Business Administration in Higher Education at the University of Bath in England. 

His lecturing career began at TUT in 1995 where he progressed from Head of Department: Chemistry in 2003 to Associate Dean: Faculty of Science in 2010, before being appointed as Executive Dean of the Faculty of Sciences at TUT in 2015 – a position he held until 2023. He also served as Interim Campus Rector of TUT’s Pretoria Campus from 2018 to 2020.

“With extensive years of academic leadership experience, Prof Ngobeni has the experience required to guide the Qwaqwa Campus towards the university’s Vision 130. The campus is already recognised as a leader in some of its unique research fields, and Prof Ngobeni’s strong research background will be valuable in this regard,” says Prof Francis Petersen, Vice-Chancellor and Principal of the UFS. 

Prof Ngobeni is a member of several professional bodies in his field of expertise, including MatTEK at the Council for Scientific and Industrial Research (CSIR), the South African Chemical Institute (SACI), the Society for Atomic Spectroscopy, and the South African Council for Natural Scientific Professions (SACNASP). During his career, he has also secured research funding for individual projects and international partnerships. Prof Ngobeni also initiated chemistry practical sessions for local schools and participated in the Technology Station in Chemicals project, which offers a wide range of services designed to assist small and medium enterprises (SMEs) in the chemical sector.

His substantial list of publications in journals and books covers a range of chemistry-related and managerial topics. He is also a well-versed presenter at local and international conferences. 

“The Qwaqwa Campus has experienced major developments in recent years; I look forward to further contributing to the growth of the campus and to support the university in achieving its Vision 130,” says Prof Ngobeni. 

News Archive

Scientists discover a water reservoir beneath the Free State
2009-12-09

Dr Holger Sommer

The Mantle Research Group Bloemfontein (MRGB), under the leadership of Dr Holger Sommer, a senior lecturer in the Department of Geology at the University of the Free State (UFS), has discovered an enormous water reservoir 160 km beneath the Free State.

This discovery, according to Dr Sommer, is the first of its kind in South Africa after he had previously made a similar finding in Colorado, USA.

However, this water cannot be used for human consumption. “It is not frozen water; it is not molecular water; it is not fresh water; it is not salty water; it is OH – water which is sitting in the crystal lattice,” he said.

He said the reservoir was comparable in size to Lake Victoria in Tanzania.
The researchers collected eclogites from the Roberts Victor (Rovic) Mine close to the town of Boshof, south-west of the Free State, for their study.

“The Rovic eclogites are rocks which represent former oceanic crust transported into the earth’s interior by complex plate tectonic processes about 2.0 billion years ago,” explained Dr Sommer.

“These rocks were finally carried back to the earth’s surface by volcanic (kimberlite) eruptions around 130 million years ago. Eclogitic rocks are therefore a window into the Earth’s interior.”

The question from the beginning for all MRGB scientists was: Is there water inside these rocks in such depth, and if so, where is it located?

To answer this question, Dr Sommer and his research fellows separated single mineral grains from eclogite samples and prepared about 100 micrometer (0,1 mm) thick rock sections. Afterwards, specific particle accelerator (Synchrotron) measurements were carried out in the city of Karlsruhe in Germany.

“And indeed, the MRGB found water inside the studied rocks from the Roberts Victor Mine,” he said. “The water was located in defect structures in crystal lattices and along boundaries between single mineral grains.”

“The occurrence of water at such depth would give first evidence that all water of the oceans could be stored five to ten times in the earth’s mantle.”
The study was conducted about a year ago.
 

Media Release
Issued by: Mangaliso Radebe
Assistant Director: Media Liaison
Tel: 051 401 2828
Cell: 078 460 3320
E-mail: radebemt.stg@ufs.ac.za
4 December 2009

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