On the simultaneous integration of heat and carbon dioxide in industrial parks Academic Article

abstract

• 2017 Elsevier Ltd This work addresses the systematic integration of carbon dioxide (CO2) and excess heat from processing facilities in industrial parks to achieve low cost carbon dioxide footprint reductions. The proposed optimization-based approach simultaneously assesses integration options that encompass the CO2 sources and their potential capture, utilization and storage (CCUS) options across sinks as well as heat and power integration in the cluster through a central utility system and grid. The proposed approach incorporates excess heat from industrial plant and renewable energy options in the form of solar and geothermal steam generation. An optimization model is developed and solved to assess the integration options and identify optimal synergies across the CO2 and energy interfaces, which minimize the total annualized cost of the system. A case study is presented to demonstrate the developed approach and illustrate its use in developing efficient solutions for CO2 emissions reduction in industrial parks.

authors

• Linke, Patrick

published proceedings

• APPLIED THERMAL ENGINEERING

author list (cited authors)

• Hassiba, R. J., & Linke, P.

citation count

• 21

complete list of authors

• Hassiba, Raid J||Linke, Patrick

publication date

• December 2017

publisher

• Elsevier  Publisher

published in

• Applied Thermal Engineering  Journal

keywords

• 13 Climate Action
• 7 Affordable And Clean Energy

Digital Object Identifier (DOI)

• 10.1016/j.applthermaleng.2017.07.157

start page

• 81

end page

• 94

volume

• 127

URL

• http://dx.doi.org/10.1016/j.applthermaleng.2017.07.157

user-defined tag

• 13 Climate Action
• 7 Affordable and Clean Energy