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01 October 2019 | Story Xolisa Mnukwa | Photo Xolisa Mnukwa
DOTY
From the left; Gift Taku, 2019 Doty winner; Reabetswe Mabine, Doty Coordinator Tshepo Zweni, first runner-up and Jacobeth Selinga, second runner-up

The votes have been tallied, and after much deliberation, the UFS is proud to announce Gift Taku as the winner of the 2019 KovsieGear Designer of the Year (DOTY) Competition!

Tshepo Zwane and Jacobeth Selinga won second and third place respectively, with innovative designs that complied with the assessment requirements, based on originality of the design, adherence to the brand guidelines, creativity, and other criteria.

Gift’s design triumphed with 845 votes on the UFS KovsieLife webpage, as well as in the presentation in front of a judging panel.

Since 2016, KovsieGear has been discovering local (UFS staff and students) graphic designers and giving them a platform to showcase their work through DOTY, which runs annually. The aim of the competition is to support local talent by giving entrants an opportunity to come up with creative designs that are unique to the university and which will be used on limited-edition apparel in the store, as well as getting featured in the KovsieGear catalogue.

The competition has since fashioned the best clothing-logo designs the university has ever seen and continues to motivate and empower students to make positive contributions to the Kovsie campus culture and brand.


For more information about DOTY contact Reabetswe Mabine at MabineR@ufs.ac.za 

The winning design by Gift Taku:

Gift design

News Archive

UFS research could light up South African homes
2016-01-21

Reitumetse Maloa, postgraduate student and researcher at the UFS Department of Microbial, Biochemical and Food Biotechnology, is using her research to provide solutions to the energy crises in South Africa.

A young researcher at the university is searching for the solution to South Africa’s energy and electricity problems from a rather unlikely source: cow dung.

“Cow dung could help us power South Africa,” explains Reitumetse Maloa, postgraduate student and researcher at the UFS Department of Microbial, Biochemical and Food Biotechnology.

Reitumetse’s research is trying to understand how the bacteria works that is responsible for producing biogas.

“Biogas can be used for cooking, heating, lighting and powering generators and turbines to make electricity. The remaining liquid effluent can fertilise crops, as it is high in nitrogen, phosphorus and potassium.”

By using cow dung and food waste to produce biogas, we will be able to lower greenhouse gases.

Biogas is produced in a digester - an oxygen-free space in which bacteria break down or digest organic material fed into the system. This process naturally produces biogas, which is mainly a mixture of methane and carbon dioxide.

“Many countries, such as Germany and the United States, have begun generating electricity from cow dung and food waste, through a process known as biogas production. In South Africa, a number of industries, including waste-water treatment facilities and farms, have caught on to this technology, using it to generate heat and to power machines.”

Until recently the world has relied heavily on electricity derived from fossil fuels such as coal, natural gas and oil. Once these fuels have been extracted from underground reservoirs, they are treated or cleaned, transported to power plants and transformed into the electricity that will reach your house. Fossil fuels are considered a ‘dirty’ energy source which gives off greenhouse gases when burned. Those gases are the major contributing factor to climate change.

“We know very little about the interaction of the bacteria inside the biogas digester. To use biogas as a sustainable fuel source, we need to understand and describe the bacteria population and growth dynamics inside the digester to produce biogas optimally. Currently we are testing a variety of feedstock, including bran, maize and molasses, for biogas production potential, as well as optimising the conditions leading to maximum biogas production. We are also exploring the potential to use the effluent as fertiliser on local farms. The ultimate goal is to have biogas systems that will supply our university with clean energy.”


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