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23 November 2021 | Story Leonie Bolleurs | Photo Tania Allen
Dr Jana Vermaas and Ketshepileone Matlhoko are working on research that leaves your washing clean and fresh without the use of any detergents, which is also beneficial to the environment.

Cold water or hot water? Omo or Skip? Laundry blues is a reality in most households and when you add stains to the equation, then what was supposed to be part of your weekly household routine, becomes frustrating and time consuming. 

Researchers at the University of the Free State (UFS) are conducting research that is putting a whole new environmentally friendly spin on laundry day.

Sustainability and environmental conservation

Dr Jana Vermaas, Lecturer in the Department of Sustainable Food Systems and Development at the UFS, is passionate about textiles and sustainability – almost a decade ago, she conducted a study on the efficacy of anolyte as a disinfectant for textiles.

She describes the process: “During electrochemical activation, a dilute solution of natrium chloride/salt passes through a cylindrical electrolytic cell where the anodic and cathodic chambers are separated. Two separate streams of electrochemically activated water are produced. Anolyte as water was produced at the positive electrode and has a low pH, high oxidation-reduction potential and contains dissolved chloride, oxygen, and hydroxyl radical. It also has an antimicrobial effect.”

The benefits of this process are in line with her enthusiasm for environmental conservation. 

According to Dr Vermaas, the amount of water and chemicals used to clean textile articles is massive. “Chemicals used to disinfect, for example, hospital laundry, are hazardous. Not all laundries in the industry have a closed loop system or try to remove the chemicals before the wastewater is discarded.”

“Different amounts of detergents have various effects on our fauna and flora. Due to their low biodegradability, toxicity, and high absorbance of particles, detergents can reduce the natural water quality, cause pH changes in soil and water, lead to eutrophication (too many nutrients), reduce light transmission, and increase salinity in water sources.”

“But with the catholyte and anolyte process, water returns to its original status, which means that the water solution becomes inactive again after production where it existed in a metastable state while containing many free radicals and a variety of molecules for 48 hours. Thus, no chemicals are left in the wastewater. The water can therefore be recycled, not as potable water but, for example, to flush toilets or to water plants.

“We should do what we can to save water,” she says. 

Should you, like Dr Vermaas, also feel strongly about protecting the environment and want to obtain one of these machines that leaves your washing clean and fresh without the use of any detergents, you will be able to find such an appliance in South Arica. However, it does not come cheap. “It is a bit costly for residential use, but might be more accessible in the future,” states Dr Vermaas, who is of the opinion that it is a more sustainable option for commercial laundries.

Detergency properties and colourfastness 

Recently, more research has been conducted on this topic, but with a focus on the detergency properties of the catholyte to clean different textile fibres (natural and synthetic). Catholyte, she explains, is water produced at the negative electrode with a high pH, low oxidation-reduction potential, containing alkaline minerals. It also has surface active agents that increase the wetting properties, and it is an antioxidant. 

“A master’s student in the department, Ketshepileone Matlhoko, will be submitting her dissertation at the end of November on the possibility of using the catholyte as a scouring agent to clean raw wool,” says Dr Vermaas. 

The department is also conducting studies to investigate the influence of both catholyte and anolyte on colourfastness.

*Graphic: Production of electrolysed water (Nakae and Indaba, 2000). Diagram: Supplied



News Archive

When you are deaf, you have to work very hard to join in the conversation
2014-09-11

 

Dr Magteld Smith

A researcher at the University of the Free State is part of an overseas audiological breakthrough, after receiving a newly developed cochlear implant processor.

Dr Magteld Smith, researcher at the University of the Free State’s Department of Otorhinolaryngology, is the first South African to receive the Rondo cochlear implant processor from Med-El in Austria, manufacturers of cochlear implants and audiology-assisting appliances.

In the field of cochlear implants, the Rondo device is very advanced in the sense that the single-unit device is wireless and easily adapts to the sound of various environments (i.e. nature, conference halls, planes and phones). It also enables the receiver of a cochlear implant to hear more than one sound at a time – something that wasn’t previously possible.

Dr Smith tells about the meaning of the device in just a short time: “For the first time I can take a walk with my dog and hear both our footsteps on the gravel of the dirt road. I can hear my own footsteps, as well as the chirping of three different birds. All at the same time.”

Dr Smith, who is currently devoting her research to the medical-social model of the global organisation, International Classification of Functioning, Disabilities and Health, as well as research in all fields of deafness, relates the anxiety, frustration and depression which formed part of her daily existence. It also complicated and undermined her academic participation.

“Deafness is very traumatic. When you are deaf, you have to work so much harder to compete in a hearing world and to join in the conversation. Because of your deafness you become anxious about misunderstandings in the workplace.”

Dr Smith is working hard and constantly not to take a back seat in the academy due to her deafness. On completion of the Hubert H. Humphrey Fellowship programme, she received a certificate signed by the American president, Barack Obama, and was named as one of the top three researchers among 400 researchers from 192 countries. Only two South Africans are selected every year by the American State and International Institute for Education. 
 
In June this year, she delivered a presentation of her work and research at the 13th International Conference on Cochlear Implants in Munich, Germany. In July this year, she delivered a presentation at the 5th International Conference for Global Hearing Health. In August she was awarded a scholarship from the Golden Key International Honour Society for outstanding scholastic proficiency and academic merit.

“As a child, my parents were told that I was ineducably disabled. Today, I am grateful for the endless speech therapy since my toddler days, and to my dear mother, Jo, and late father, Chris Boshoff, and their firm belief in God which made them believe in me as a person with a congenital deafness. I am grateful for their unconditional love, endless patience, encouragement and support through my long journey in a competitive hearing world. This, together with the help of technology, enabled me to make a significant contribution to the academic world. Everything in my life is undeserved grace, pure kindness.” 
 
 

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