Integrated Agro-industrial Wastewater treatment and Value Addition Innovations

In the eastern Africa region agriculture and industrial processing are viewed as the main drivers for economic growth. However, these sectors are associated with environmental degradation due to the unsustainable utilization of land and water resources, discharge of untreated or partially treated waste water to the environment, and greenhouse gas (GHG) emissions, and consequently climate change.

There is also a growing demand for alternative energy sources to fossilized fuel that are cheaper and environmentally friendly. The current conventional agro-process waste water treatment processes in the region tend to separately focus on reducing pollution load or bio-gas production. These treatment processes do not integrate pollution reduction, energy and nutrient recovery from agro-process waste water to contribute to the ever-increasing energy demands but at the same time reduce GHG emissions.

Furthermore, these waste water treatment technologies often do not meet national discharge standards to protect the human population and the environment. Innovative treatment technologies and processes that not only treat waste water from industrial activities from slaughterhouses, tanneries and breweries for example, but that also add value along the waste treatment chain are necessary strategies to contribute to global climate change mitigation efforts and environmental sustainability.

This project focuses on developing and testing technologies for integrating biogas production and water and nutrient recycling from slaughterhouses, wine production and tanning processes in Uganda, Tanzania and Ethiopia respectively in partnership with the industrial partners in the respective countries.

Integrated waste water treatment technologies that combine pollution reduction, energy and nutrient recovery from agro-industrial waste.

  1. In Uganda, initial testing of the pilot digester system receiving slaughterhouse wastewater at the Kampala City abattoir is complete and quantity and quality of biogas currently stands at 8-13 m3/day and 61% methane, respectively. Process performance optimization is ongoing.
  1. In Tanzania, construction of the integrated wastewater treatment facility for treating wastewater from banana brewery as well as producing biogas, bio-fertilizer and clean water for reuse complete and process performance optimization is ongoing.
  1. In Ethiopia, preliminary data from the pilot scale two stage anaerobic-aerobic digester and constructed wetlands system for treating tannery wastewater and producing biogas and clean water for reuse has been completed and process performance optimization is on-going.
  1. Intellectual property audit and full techno economic feasibility analysis as well as a business plan developed for the three technologies to guide the scaling up and roll-out of these innovative technologies.

Integrated Agro-industrial Waste water Treatment and Value Addition Innovations

Once the pilot-demonstrations are completed, the next step will be to scale up and disseminate and/or commercialize the innovations to industrial stakeholders in the region generating similar type waste water. Scaling up of technologies in partnership with interested industrial partners to fully manage their waste and convert it into value added products that not only impact their profitability but also solve environmental problems will follow. Search for innovative funding mechanisms has been initiated for scaling up and delivering these innovative waste water treatment solutions to prevent a pollution catastrophe in eastern Africa.

Integrated-Agro industrial Wastewaters veges

“Banana Investment Limited (BIL) was initially interested in this project as it promised to deliver innovations that would help the company manage its waste while complying with the National Environment Management Council (NEMC) regulations. In addition this innovation would generate bio-gas that could be used in meeting the factory’s energy needs, help it adhere to set emission rules, and save energy costs by using generated bio-gas. BIL is expected to save about 300 liters of furnace oil per day, which costs 8 million Tanzanian shillings (equivalent to $5,000) every month.”

Adolf R. Olomi Banana Investments Limited, Tanzania”

Participating countries, institutions and organizations

Research Institutions

  1. University of Dar es Salaam, Tanzania
  2. Makerere University, Uganda
  3. Addis Ababa University, Ethiopia
  4. National University of Rwanda

Private sector partners

  1. Banana Investments Ltd, Tanzania
  2. Modjo Tannery Share Company Ltd, Ethiopia
  3. Kampala Abattoir, Uganda
  4. Switch Responsible Ventures AB, Stockholm,
  5. Sweden

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