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03 October 2018 | Story UFS | Photo Varsity Sports
First ever netball final in Bloemfontein
The Kovsies will be aiming to lift the Varsity Netball trophy in front of their home supporters on Monday when they face Tuks in the final in the Callie Human Centre.
The netball team of the University of the Free State, once again after five years, earned themselves the right to stage a final in the Varsity Netball competition. The two-time champion, the Dream Team, qualified for the final after topping the log and then wiping the floor with the Maties on Monday (1 October 2018) in the semi-final. The score was 56-45. 

They will come up against Tuks in the Callie Human Centre on the UFS Bloemfontein Campus for the final tonight. The match will get underway at 18:45.

The team won the very first two years of the competition in 2013 and 2014. On both occasions, they had to play away from home – in 2013 against the Pukke in Potchefstroom and in 2014 against Tuks in Pretoria. 

It will be the fourth meeting between the Kovsies and Tuks within three months. The Free State students won the group fixture in August by 68-43, but Tuks had to do without a number of their star players. At the University Sport South Africa tournament in Bloemfontein during July, Tuks triumphed twice, winning the final by 48-30.

Apart from the winners’ medals, an award will be handed to the tournament’s top player. Centre Khanyisa Chawane is one of three finalists. The winner gets chosen through public votes.

Dream Team players have won the prize four of the five times. Ané Botha was crowned in 2013, Karla Pretorius in 2014 and 2015, and last year it was the turn of current Kovsie player, Khomotso Mamburu.

To vote for Chawane, click here hover your mouse over the like button and choose the heart emoticon. Voting is closing on 5 October and the winner will be announced after the final.

News Archive

Carbon dioxide makes for more aromatic decaffeinated coffee
2017-10-27


 Description: Carbon dioxide makes for more aromatic decaffeinated coffee 1b Tags: Carbon dioxide makes for more aromatic decaffeinated coffee 1b 

The Inorganic Group in the Department of Chemistry
at the UFS is systematically researching the utilisation
of carbon dioxide. From the left, are, Dr Ebrahiem Botha,
Postdoctoral Fellow; Mahlomolo Khasemene, MSc student;
Prof André Roodt; Dr Marietjie Schutte-Smith, Senior Lecturer;
and Mokete Motente, MSc student.
Photo: Charl Devenish

Several industries in South Africa are currently producing hundreds of thousands of tons of carbon dioxide a year, which are released directly into the air. A typical family sedan doing around 10 000 km per year, is annually releasing more than one ton of carbon dioxide into the atmosphere.

The Inorganic Chemistry Research Group in the Department of Chemistry at the University of the Free State (UFS), in collaboration with the University of Zurich in Switzerland, has focused in recent years on using carbon dioxide – which is regarded as a harmful and global warming gas – in a meaningful way. 

According to Prof André Roodt, Head of Inorganic Chemistry at the UFS, the Department of Chemistry has for the past five decades been researching natural products that could be extracted from plants. These products are manufactured by plants through photosynthesis, in other words the utilisation of sunlight and carbon dioxide, nitrogen, and other nutrients from the soil.

Caffeine and chlorophyll 
“The Inorganic group is systematically researching the utilisation of carbon dioxide. Carbon dioxide is absorbed by plants through chlorophyll and used to make interesting and valuable compounds and sugars, which in turn could be used for the production of important new medicines,” says Prof Roodt.

Caffeine, a major energy enhancer, is also manufactured through photosynthesis in plants. It is commonly found in tea and coffee, but also (artificially added) in energy drinks. Because caffeine is a stimulant of the central nervous system and reduces fatigue and drowsiness, some people prefer decaffeinated coffee when enjoying this hot drink late at night. 

Removing caffeine from coffee could be expensive and time-consuming, but also environmentally unfriendly, because it involves the use of harmful and flammable liquids. Some of the Inorganic Group’s research focus areas include the use of carbon dioxide for the extraction of compounds, such as caffeine from plants. 

“Therefore, the research could lead to the availability of more decaffeinated coffee products. Although decaffeinated coffee is currently aromatic, we want to investigate further to ensure better quality flavours,” says Prof Roodt.

Another research aspect the team is focusing on is the use of carbon dioxide to extract chlorophyll from plants which have medicinal properties themselves. Chemical suppliers sell chlorophyll at R3 000 a gram. “In the process of investigating chlorophyll, our group discovered simpler techniques to comfortably extract larger quantities from green vegetables and other plants,” says Prof Roodt.

Medicines
In addition, the Inorganic Research Group is also looking to use carbon dioxide as a building block for more valuable compounds. Some of these compounds will be used in the Inorganic Group’s research focus on radiopharmaceutical products for the identification and possibly even the treatment of diseases such as certain cancers, tuberculosis, and malaria.

 

 

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