Diego Perrone scite author profile

Improvements in internal combustion engine efficiency can be achieved with proper thermal management. In this work, a simulation tool for the preliminary analysis of the engine cooling control is developed and a model-based controller, which enforces the coolant flow rate by means of an electrically driven pump is presented. The controller optimizes the coolant flow rate under each engine operating condition to guarantee that the engine temperatures and the coolant boiling levels are kept inside prescribed constraints, which guarantees efficient and safe engine operation. The methodology is validated at the experimental test rig. Several control strategies are analyzed during a standard homologation cycle and a comparison of the proposed methodology and the adoption of the standard belt-driven pump is provided. The results show that, according to the control strategy requirements, a fuel consumption reduction of up to about 8% with respect to the traditional cooling system can be achieved over a whole driving cycle. This proves that the proposed methodology is a useful tool for appropriately cooling the engine under the whole range of possible operating conditions.

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Analysis of multi-source energy system for small-scale domestic applications. Integration of biodiesel, solar and wind energy

Algieri

Morrone

Perrone

et al. 2020

Energy Reports

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Investigation of Integrated Organic Rankine Cycles and Wind Turbines for Micro-Scale Applications

et al. 2018

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Investigation of the energy performance of multi-source integrated CHP systems for small-scale applications

Morrone¹,

Algieri²,

Castiglione³

et al. 2019

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Diego Perrone

Numerical simulations on Oxy-MILD combustion of pulverized coal in an industrial boiler

Application of a Model-Based Controller for Improving Internal Combustion Engines Fuel Economy

Analysis of multi-source energy system for small-scale domestic applications. Integration of biodiesel, solar and wind energy

Investigation of Integrated Organic Rankine Cycles and Wind Turbines for Micro-Scale Applications

Investigation of the energy performance of multi-source integrated CHP systems for small-scale applications

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