Thokozani Majozi scite author profile

To date, most work on water network synthesis has been focusing on a single water network. The increase of public awareness toward industrial ecology has inspired new research into interplant water integration (IPWI). In this context, each water network may be grouped according to the geographical location of the water-using processes or as different plants operated by different business entities. Water source(s) from one network may be reused/recycled to sink(s) in another network. In this work, two different IPWI schemes, that is, "direct" and "indirect" integration are analyzed using mathematical optimization techniques. In the former, water from different networks is integrated directly via cross-plant pipeline(s). A mixed integer linear program (MILP) model is formulated and solved to achieve a globally optimal solution. In the latter, water from different networks is integrated indirectly via a centralized utility hub. The centralized utility hub serves to collect and redistribute water to the individual plants, and may even function as a shared water regeneration unit. For the indirect integration scheme, a mixed integer nonlinear program (MINLP) is formulated and solved using a relaxation linearization technique to obtain an optimal solution.

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Wastewater minimisation using central reusable water storage in batch plants

Majozi

2005

Computers & Chemical Engineering

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A graphical technique for wastewater minimisation in batch processes

Majozi

Brouckaert

Buckley

2006

Journal of Environmental Management

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A robust mathematical formulation for multipurpose batch plants

Seid

Majozi

2012

Chemical Engineering Science

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