In recent years, due to the increasing concern over energy shortage and global warming, the interest in low grade heat recovery from industrial processes has grown dramatically (IEA, 2010). Several studies have underlined the potential of small-capacity ORC power plants for waste heat recovery (WHR) applications (Verneau, 1979). For such systems accurate dynamic modeling represents an important tool in particular when control issues are considered (Colonna and van Putten, 2007) (Casella et al., 2013). This paper presents a dynamic model of an ORC system, validated both in steady-state and transient conditions via experimental data from a 10 kWe waste heat recovery ORC system with a screw expander
Medium to low grade waste heat recovery from industrial processes is of particular interest to addre...
Several heat-to-power conversion technologies are being proposed as suitable for waste-heat recovery...
Although its great potential as low to medium temperature waste heat recovery (WHR) solution, the OR...
In recent years, due to the increasing concern over energy shortage and global warming, the interest...
In recent years, due to the increasing concern over energy shortage and global warming, the interest...
In recent years, due to the increasing concern over energy shortage and global warming, the interest...
During the last years, one of the most popular ways to recover low-grade waste heat is the organic R...
Abstract Increasing energy-demand and environmental concerns are leading to a growing interest in al...
AbstractIncreasing energy-demand and environmental concerns are leading to a growing interest in alt...
ORC power units represent a promising technology for the recovery of waste heat in Internal Combusti...
The Organic Rankine Cycle (ORC) system is considered one of the leading technologies for waste heat ...
ORC plant transient modeling is an actual issue for the correct assessment of the size of the variou...
AbstractORC plant transient modeling is an actual issue for the correct assessment of the size of th...
Organic Rankine Cycle (ORC) is an effective and promising technology to convert low-grade thermal en...
The Organic Rankine Cycle (ORC) system is considered one of the leading technologies for waste heat ...
Medium to low grade waste heat recovery from industrial processes is of particular interest to addre...
Several heat-to-power conversion technologies are being proposed as suitable for waste-heat recovery...
Although its great potential as low to medium temperature waste heat recovery (WHR) solution, the OR...
In recent years, due to the increasing concern over energy shortage and global warming, the interest...
In recent years, due to the increasing concern over energy shortage and global warming, the interest...
In recent years, due to the increasing concern over energy shortage and global warming, the interest...
During the last years, one of the most popular ways to recover low-grade waste heat is the organic R...
Abstract Increasing energy-demand and environmental concerns are leading to a growing interest in al...
AbstractIncreasing energy-demand and environmental concerns are leading to a growing interest in alt...
ORC power units represent a promising technology for the recovery of waste heat in Internal Combusti...
The Organic Rankine Cycle (ORC) system is considered one of the leading technologies for waste heat ...
ORC plant transient modeling is an actual issue for the correct assessment of the size of the variou...
AbstractORC plant transient modeling is an actual issue for the correct assessment of the size of th...
Organic Rankine Cycle (ORC) is an effective and promising technology to convert low-grade thermal en...
The Organic Rankine Cycle (ORC) system is considered one of the leading technologies for waste heat ...
Medium to low grade waste heat recovery from industrial processes is of particular interest to addre...
Several heat-to-power conversion technologies are being proposed as suitable for waste-heat recovery...
Although its great potential as low to medium temperature waste heat recovery (WHR) solution, the OR...