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Mulalo Doyoyo
South African scientist, educator and inventor

Mulalo Doyoyo

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South African scientist, educator and inventor
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Male
Age
54 years
Mulalo Doyoyo
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Biography

Mulalo Doyoyo (born 13 August 1970) is a South African engineer, inventor, and professor.
Doyoyo is a researcher in applied mechanics, ultralight materials, green building, renewable energy, and other fields of engineering. He has lectured in different engineering disciplines including ocean engineering, civil and environmental engineering, and mechanical engineering. He has operated at the academia-industry interface, forming partnerships with a diverse group of companies.
In addition to his contributions in engineering, Doyoyo is well-known for his invention of Cenocell. He is also recognized for his passion in promoting the utilization of technology to fight poverty, and for the advancement of science and engineering in underpriviledged youth.

Early life and education

Mulalo Doyoyo was born at William Edie Hospital in Tshidimbini Venda to Khorommbi Doyoyo and his wife Mudzuli (née Dzaga) of Vondwe village. Venda was a bantustan in northern South Africa during apartheid and is now part of the Limpopo Province.

He started his bantu education schooling at Vondwe Lower Primary School in 1977 and then moved on to Tshidimbini Higher Primary School in 1981. He joined Tshidimbini Secondary School in 1984 where he studied until 1985. In 1986, he registered at Mbilwi Secondary School where he founded a science club and a hand-written student newspaper the weekly tri-opinion. He was later voted as the head boy of the school, matriculating in 1988.

Anglo American awarded him a scholarship to study engineering. He chose to pursue his studies at the University of Cape Town. He was enrolled at the university in a five-year engineering bridging program, which at the time was designed for bantu education matriculates. Towards the end of his studies, he was additionally awarded a Shell Oil Company scholarship.

He resided in Smuts Hall, where he became a tutor in science and engineering, eventually becoming a head tutor. He became a publication officer of the student engineering council, a student representative of the South African Institute of Aerospace Engineers, and a founder of the student aerospace society in the faculty of engineering and the built environment.

Eventually, he became the president of the student engineering council. He later created Temescial (technology, medicine, and science for all), an organisation aimed at exposing underprivileged young people in high schools to those fields of learning. Temescial held its first workshop at the University of Venda in 1993.

Doyoyo's honors thesis was on the design and construction of mechanical equipment to investigate false brinelling of heavy-duty bearings in electric motors. Having completed his requirements of a bachelor's degree in mechanical engineering before graduation, he was admitted by Brown University as a visiting undergraduate student, taking graduate courses in solid mechanics, materials science, and applied mathematics. He earned masters' degrees in solid mechanics and applied mathematics in 1995 and 1996, respectively.

His doctoral research was based on the field of ballistics focusing on the design of light-weight armors. For this purpose, he investigated very high velocity projectile launchers including the electromagnetic railgun. He then designed and constructed a helium-powered light-gas gun to launch projectiles up to 1,5 km/s. He observed the experimental results using high-speed photography, laser technology, and witness plates.

He defended his doctoral thesis in engineering in 1999. His thesis was entitled, "Experimental studies of subsonic penetration in silica glasses and ceramics". He employed granular material physics to describe fragment ejecta behaviour and to predict the impact depth of projectiles as a function of impact velocity. Noting an anomalous behaviour from the experimental observations, he applied the variational perturbation theory to reveal and explain the role played by the increase in mass density during the failure of brittle materials under dynamic compression. In 1999, he accepted a postdoctoral researcher position from the Massachusetts Institute of Technology to enhance his studies in applied mechanics. After his postdoctoral studies, he lectured in ocean engineering at MIT.

Academic career

Biaxial universal testing machine

He then collaborated with researchers in the Joint MIT-Industry Consortium on Ultralight Metal Body Structures, the Cambridge-MIT Institute, and the Next Generation Vehicles Initiative. He performed experiments at the impact and crashworthiness laboratory on cellular solids including metallic foams and honeycombs. These materials were to be used as components in vehicles as sandwich-structured composites. Cellular solids are favoured in vehicles because they are strong and lightweight resulting in increased fuel economy.

The challenge was to come up with new experimental techniques, specimens, and devices to test soft solids under extreme multidimensional crash loads, to simulate a typical collision event. He developed a trapezoid-shaped specimen to deduce the local stress-strain relation for metal foams to be incorporated into finite element analysis (FEA) codes.

For the constitutive equation and crash failure surfaces, he developed a butterfly-shaped specimen, and modified the Arcan apparatus, deriving equations for determining shear and compressive or tensile stresses in the test section of the specimen. Due to the difficulty of handling the butterfly-shaped specimen,he developed a Universal Biaxial Testing Device with an altered specimen geometry.

Cenocell samples
"Ahifambeni" hydrogen motorbike

He left MIT in 2004 to lecture at the school of civil and environmental engineering at the Georgia Institute of Technology (Georgia Tech). He created the ultralight systems laboratory that was dedicated to experimental research on ultralight materials. He designed and installed a novel biaxial universal testing machine based on a 200 kN frame. Then, he initiated research on lattice truss structures for application in hydrogen storage in automobiles.

Applying the foundation and plate theories of structural mechanics, he proved that as an internal reinforcing element, a truss lattice structure has the ability to reduce the weight of a pressure vessel by decreasing its skin thickness while improving its fracture strength. This led to the invention disclosure of microtruss pressure vessels. These pressure vessels accommodate non-round shapes resulting in increased safety, driving range, and cabin space for hydrogen vehicles.

In an effort to develop energy storage systems for large-scale traditional and renewable energy sources, he begun research collaboration with electricity generation companies. As one of the results of this collaboration, he developed Cenocell, a patented concrete-like material that is based on fly ash without the addition of Portland cement. Fly ash is a pollutant byproduct of coal-fired power plants, cement production, paper manufacturing, and mining operations. Cenocell microstructure resembles that of a natural gas reservoir rock.

As of 2006, he became interested in doing research aligning with his homeland's Reconstruction and Development Programme (RDP) He started work with his graduate students on green building and renewable energy. Between 2007 and 2009, he was appointed as a professor extraordinare and later a visiting research and innovation chair at the Tshwane University of Technology. This afforded him the opportunity to collaborate with local researchers on the RDP.

This collaboration inspired him to create Retecza (resource-driven technology concept center). During its inception in South Africa in 2008, the organisation welcomed cross-disciplinary researcher and industrialist participants from around the world. One of the outcomes of Retecza was the design and construction of a hydrogen motorbike named "Ahifambeni".

Amoriguard samples

Entrepreneurship

After leaving Georgia Tech, he moved to Midrand, Johannesburg, where he created an experimental laboratory for environmental-friendly chemicals. Since its founding in 2012, the laboratory has generated several inventions. He also taught mechanical engineering briefly at the University of Johannesburg.Sasol Chemcity recognised the Midrand lab activities and provided funding through its program for small and medium-sized enterprises.

Working in collaboration with concrete manufacturers and mining companies, he developed "green" chemical binders Solunexz and Glunexz for coal dust, construction aggregates, and charcoal. With continued support from Sasol, he developed Amoriguard, a non-volatile organic compound paint and skim coating based on tailings and industrial waste. Amoriguard has received Agrément certificate. In 2014, he worked on flushing solar-powered toilets that operate as a miniature waste-treatment plant. This technology based on nanofiltration and anaerobic digestion is implemented in places where water supply and sanitation are scarce. In 2016, while developing acid bricks, Doyoyo designed and manufactured Ecocast brick making machines that save water and energy.

The contents of this page are sourced from Wikipedia article. The contents are available under the CC BY-SA 4.0 license.
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