Advances in designing and targeting of water systems involving regeneration/treatment units

Advances in designing and targeting of water systems involving regeneration/treatment units

Článek WoS

It is of great significance to introduce regeneration/treatment units into a water system. Regeneration units and treatment units are the same in function and application, but different in destination of the outlet streams. The outlet streams of the regeneration units will be reused/recycled in the water system. The outlet streams of the treatment units will be discharged to environment. This paper provides a review of the development in designing and targeting of continuous water systems involving regeneration/treatment units. The features of Pinch Analysis methods and mathematical programming methods are discussed for the integration of regeneration system, treatment system and total water system separately. For a water system involving regeneration unit, it is addressed that the system can be formed by adding one or more additional source(s), regenerated stream(s), into a water system involving reuse only. The contribution of Liu's group based on the above insight is outlined. Finally, this review offers a guide for future efforts in the integration of water systems involving regeneration/treatment.

It is of great significance to introduce regeneration/treatment units into a water system. Regeneration units and treatment units are the same in function and application, but different in destination of the outlet streams. The outlet streams of the regeneration units will be reused/recycled in the water system. The outlet streams of the treatment units will be discharged to environment. This paper provides a review of the development in designing and targeting of continuous water systems involving regeneration/treatment units. The features of Pinch Analysis methods and mathematical programming methods are discussed for the integration of regeneration system, treatment system and total water system separately. For a water system involving regeneration unit, it is addressed that the system can be formed by adding one or more additional source(s), regenerated stream(s), into a water system involving reuse only. The contribution of Liu's group based on the above insight is outlined. Finally, this review offers a guide for future efforts in the integration of water systems involving regeneration/treatment.

Distributed wastewater treatment; Mathematical programming methods; Regeneration recycling; Regeneration reuse; Total water system; Water Pinch Analysis; Water system integration; Mathematical programming; Rivers; Wastewater reclamation; Wastewater treatment; Water conservation; Water distribution systems; Water recycling; Water treatment; Regeneration recycling; Regeneration reuse; Distributed computer systems

Distributed wastewater treatment; Mathematical programming methods; Regeneration recycling; Regeneration reuse; Total water system; Water Pinch Analysis; Water system integration; Mathematical programming; Rivers; Wastewater reclamation; Wastewater treatment; Water conservation; Water distribution systems; Water recycling; Water treatment; Regeneration recycling; Regeneration reuse; Distributed computer systems

Fan, X.-Y.; Li, A.-H.; Klemeš, J.J.; Liu, Z.-Y.

2019

01.10.2018

Elsevier Ltd

0959-6526

Journal of Cleaner Production

197

197

Spojené státy americké

1394

1407

14