To maximize the system-level heat integration, three retrofit concepts of waste heat recovery via organic Rankine cycle (ORC), in-depth boiler-turbine integration, and coupling of both are proposed, analyzed and comprehensively compared in terms of thermodynamic and economic performances. For thermodynamic analysis, exergy analysis is employed with grand composite curves illustrated to identify how the systems are fundamentally and quantitatively improved, and to highlight key processes for system improvement. For economic analysis, annual revenue and investment payback period are calculated based on the estimation of capital investment of each component to identify the economic feasibility and competitiveness of each retrofit concept propo...
The utilization of waste heat for heat recovery technologies in process sites has been widely known ...
This manuscript presents an advanced exergo-economic analysis of a waste heat recovery system based ...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
To maximize the system-level heat integration, three retrofit concepts of waste heat recovery via or...
The performance of organic Rankine cycle (ORC) systems operating in combined heat and power (CHP) mo...
A comparative exergoeconomic analysis is reported for waste heat recovery from a gas turbine-modular...
Conventional technologies used to generate electricity from heat require high temperature and pressu...
In this article, an organic Rankine cycle (ORC) was integrated into a 2-MW natural gas engine to eva...
Many practical cases with waste heat recovery potential such as exhaust gases of reciprocating engin...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed for recovering multi...
The increased use of fossil fuels in the industry has resulted in severe environmental issues, such ...
Improving energy efficiency in every sector (e.g., building, industrial, transport) is a priority to...
The thermodynamic performance of a regenerative organic Rankine cycle that utilizes low temperature ...
Industrial sector is one of the major energy consumers in the world. Energy inefficiency in industry...
Organic Rankine cycle (ORC) systems are increasingly being deployed for waste-heat recovery and conv...
The utilization of waste heat for heat recovery technologies in process sites has been widely known ...
This manuscript presents an advanced exergo-economic analysis of a waste heat recovery system based ...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
To maximize the system-level heat integration, three retrofit concepts of waste heat recovery via or...
The performance of organic Rankine cycle (ORC) systems operating in combined heat and power (CHP) mo...
A comparative exergoeconomic analysis is reported for waste heat recovery from a gas turbine-modular...
Conventional technologies used to generate electricity from heat require high temperature and pressu...
In this article, an organic Rankine cycle (ORC) was integrated into a 2-MW natural gas engine to eva...
Many practical cases with waste heat recovery potential such as exhaust gases of reciprocating engin...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed for recovering multi...
The increased use of fossil fuels in the industry has resulted in severe environmental issues, such ...
Improving energy efficiency in every sector (e.g., building, industrial, transport) is a priority to...
The thermodynamic performance of a regenerative organic Rankine cycle that utilizes low temperature ...
Industrial sector is one of the major energy consumers in the world. Energy inefficiency in industry...
Organic Rankine cycle (ORC) systems are increasingly being deployed for waste-heat recovery and conv...
The utilization of waste heat for heat recovery technologies in process sites has been widely known ...
This manuscript presents an advanced exergo-economic analysis of a waste heat recovery system based ...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...