Waste heat recovery is an effective way to reuse waste energy in order to produce useful
energy products. This technique aids in the reduction of CO 2 emissions and to create …

Effective recovery of heavy-duty vehicle waste heat is a key solution toward meeting the
increasingly stringent fuel economy and CO 2 emission standards. Different from previous …

Studies and applications of organic Rankine cycle (ORC) systems are increasing in recent
years because of the advantages of them on the recovery of low temperature heat sources …

Abstract Low power Organic Rankine Cycle (ORC) turbines are typically characterised by
flow efficiencies much smaller than those of large power steam or gas turbines. The paper …

Radial inflow turbine design was investigated for ORC systems having transcritical and
close to critical point expansion. The analysis was carried out by combining the turbine …

The paper describes the method of CFD based Nelder-Mead optimization of a 10 kW single-
stage axial turbine operating in an ORC system working on R7100. The total-to-static …

Abstract The Organic Rankine cycle system is a well-established technology for converting
the waste heat from internal combustion engines into mechanical or electrical power. For a …

This study aims to investigate techno-economic benefits of biomass retrofit for practical
concentrated solar power (CSP) organic Rankine cycle (ORC) power plants. In this regard …

This paper investigates the design and thermodynamic optimisation of both sub-and
transcritical organic Rankine cycle (ORC) power systems featuring radial turbines via …

High-temperature supercritical organic Rankin cycle (SORC) has great application potential
but has not been fully studied. To achieve a large expansion ratio in the high-temperature …