Detail publikace

Industrial site water minimisation via one-way centralised water reuse header

Fadzil, A.F.A. Wan Alwi, S.R. Manan, Z. Klemeš, J.J.

Anglický název

Industrial site water minimisation via one-way centralised water reuse header

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

en

Originální abstrakt

Water is extensively used in industry for processes such as washing, stripping, extraction, heating and cooling. Growing world population, rising price of freshwater and stricter environmental regulations have motivated efforts for efficient water management and utilisation in industry. Even though research on Water Integration at Total Site have been well-documented, there are still a few critical issues that need to be adequately addressed. Complex water exchange networks that have typically resulted from superstructure optimisation at Total Site can be costly and less favourable for practical implementation. In this paper, the concept of one-way centralised water reuse header (CWRH) is applied for Water Integration at Total Site for a simpler and easy-to-manage inter-plant water reuse and exchange. Process plants are assumed located along the centralised water reuse header, and water is exchanged along the one-way pipeline. The CWRH system can be operated by a third-party, allowing the operator to protect users’ proprietary information and confidential data. Total Site Centralised Water Integration (TS-CWI) is developed to target the minimum freshwater requirement and wastewater generation across Total Site. The methodology is illustrated using a case study comprising of five plants located along two centralised water reuse headers. Results demonstrate that the Total Site freshwater requirement and wastewater generation are reduced by 72.3%, (from 2,540 t/h to 702.4 t/h) and that the TS-CWI resulted in a much simpler Total Site Water Network that led to significant reductions in piping and pumping costs.

Anglický abstrakt

Water is extensively used in industry for processes such as washing, stripping, extraction, heating and cooling. Growing world population, rising price of freshwater and stricter environmental regulations have motivated efforts for efficient water management and utilisation in industry. Even though research on Water Integration at Total Site have been well-documented, there are still a few critical issues that need to be adequately addressed. Complex water exchange networks that have typically resulted from superstructure optimisation at Total Site can be costly and less favourable for practical implementation. In this paper, the concept of one-way centralised water reuse header (CWRH) is applied for Water Integration at Total Site for a simpler and easy-to-manage inter-plant water reuse and exchange. Process plants are assumed located along the centralised water reuse header, and water is exchanged along the one-way pipeline. The CWRH system can be operated by a third-party, allowing the operator to protect users’ proprietary information and confidential data. Total Site Centralised Water Integration (TS-CWI) is developed to target the minimum freshwater requirement and wastewater generation across Total Site. The methodology is illustrated using a case study comprising of five plants located along two centralised water reuse headers. Results demonstrate that the Total Site freshwater requirement and wastewater generation are reduced by 72.3%, (from 2,540 t/h to 702.4 t/h) and that the TS-CWI resulted in a much simpler Total Site Water Network that led to significant reductions in piping and pumping costs.

Klíčová slova anglicky

Centralised water reuse header; Interplant water integration; Pinch analysis; Process integration; Total site centralised water integration; Water minimisation; Environmental regulations; Wastewater reclamation; Water; Water management; Minimisatio; Water integration; Water reuse; Water conservation

Vydáno

01.11.2018

Nakladatel

Elsevier Ltd

ISSN

0959-6526

Ročník

200

Číslo

200

Strany od–do

174–187

Počet stran

14

BIBTEX


@article{BUT151488,
  author="Jiří {Klemeš},
  title="Industrial site water minimisation via one-way centralised water reuse header",
  year="2018",
  volume="200",
  number="200",
  month="November",
  pages="174--187",
  publisher="Elsevier Ltd",
  issn="0959-6526"
}