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2022 (3)

2020 (1)

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Book
District Heating and Cooling Networks
Authors: --- ---
ISBN: 3039288407 3039288393 Year: 2020 Publisher: MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Conventional thermal power generating plants reject a large amount of energy every year. If this rejected heat were to be used through district heating networks, given prior energy valorisation, there would be a noticeable decrease in the amount of fossil fuels imported for heating. As a consequence, benefits would be experienced in the form of an increase in energy efficiency, an improvement in energy security, and a minimisation of emitted greenhouse gases. Given that heat demand is not expected to decrease significantly in the medium term, district heating networks show the greatest potential for the development of cogeneration. Due to their cost competitiveness, flexibility in terms of the ability to use renewable energy resources (such as geothermal or solar thermal) and fossil fuels (more specifically the residual heat from combustion), and the fact that, in some cases, losses to a country/region’s energy balance can be easily integrated into district heating networks (which would not be the case in a “fully electric” future), district heating (and cooling) networks and cogeneration could become a key element for a future with greater energy security, while being more sustainable, if appropriate measures were implemented. This book therefore seeks to propose an energy strategy for a number of cities/regions/countries by proposing appropriate measures supported by detailed case studies.


Book
Computational Heat Transfer and Fluid Mechanics
Authors: --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

With the advances in high-speed computer technology, complex heat transfer and fluid flow problems can be solved computationally with high accuracy. Computational modeling techniques have found a wide range of applications in diverse fields of mechanical, aerospace, energy, environmental engineering, as well as numerous industrial systems. Computational modeling has also been used extensively for performance optimization of a variety of engineering designs. The purpose of this book is to present recent advances, as well as up-to-date progress in all areas of innovative computational heat transfer and fluid mechanics, including both fundamental and practical applications. The scope of the present book includes single and multiphase flows, laminar and turbulent flows, heat and mass transfer, energy storage, heat exchangers, respiratory flows and heat transfer, biomedical applications, porous media, and optimization. In addition, this book provides guidelines for engineers and researchers in computational modeling and simulations in fluid mechanics and heat transfer.

Keywords

Technology: general issues --- History of engineering & technology --- auxiliary feedwater system --- cavitation --- computational fluid dynamics --- in-service testing --- multiphase flow --- multi-stage orifice --- nonuniform metal foam --- melting heat transfer --- thermal energy storage --- conical swirl atomizer --- atomization --- CFD --- Eulerian model --- heat transfer coefficient --- micro-fins --- friction factor --- numerical methods --- micro- and macro-parameters of the atomized liquid --- mechanism of effervescent-swirl atomization --- efficiency of atomization process --- effervescent-swirl atomizer --- fixed-bed reactor --- wall structures --- complex particle shapes --- process intensification --- heat transfer --- photovoltaic cell efficiency --- thermal regulation --- energy and light harvesting --- irreversibility losses --- quantum dynamics --- nature-inspired mimicking --- heat transfer enhancement --- radiation insert --- numerical simulations --- performance evaluation criteria --- thermal efficiency --- particle sedimentation --- resistance force --- fractional-order integro-differential equation --- laplace transform --- Mittag–Leffler function --- block-pulse operational matrix --- Nu number --- microchannel heat sink --- trefoil ribs --- thermal enhancement --- thermal resistance --- triple-tube heat exchanger --- twisted fin array --- phase change material --- solidification --- nanofluids advantages and disadvantages --- thermal hydraulic performance --- vortex generators --- micro-channel


Book
Computational Heat Transfer and Fluid Mechanics
Authors: --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Export citation

Choose an application

Bookmark

Abstract

With the advances in high-speed computer technology, complex heat transfer and fluid flow problems can be solved computationally with high accuracy. Computational modeling techniques have found a wide range of applications in diverse fields of mechanical, aerospace, energy, environmental engineering, as well as numerous industrial systems. Computational modeling has also been used extensively for performance optimization of a variety of engineering designs. The purpose of this book is to present recent advances, as well as up-to-date progress in all areas of innovative computational heat transfer and fluid mechanics, including both fundamental and practical applications. The scope of the present book includes single and multiphase flows, laminar and turbulent flows, heat and mass transfer, energy storage, heat exchangers, respiratory flows and heat transfer, biomedical applications, porous media, and optimization. In addition, this book provides guidelines for engineers and researchers in computational modeling and simulations in fluid mechanics and heat transfer.


Book
Computational Heat Transfer and Fluid Mechanics
Authors: --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

With the advances in high-speed computer technology, complex heat transfer and fluid flow problems can be solved computationally with high accuracy. Computational modeling techniques have found a wide range of applications in diverse fields of mechanical, aerospace, energy, environmental engineering, as well as numerous industrial systems. Computational modeling has also been used extensively for performance optimization of a variety of engineering designs. The purpose of this book is to present recent advances, as well as up-to-date progress in all areas of innovative computational heat transfer and fluid mechanics, including both fundamental and practical applications. The scope of the present book includes single and multiphase flows, laminar and turbulent flows, heat and mass transfer, energy storage, heat exchangers, respiratory flows and heat transfer, biomedical applications, porous media, and optimization. In addition, this book provides guidelines for engineers and researchers in computational modeling and simulations in fluid mechanics and heat transfer.

Keywords

Technology: general issues --- History of engineering & technology --- auxiliary feedwater system --- cavitation --- computational fluid dynamics --- in-service testing --- multiphase flow --- multi-stage orifice --- nonuniform metal foam --- melting heat transfer --- thermal energy storage --- conical swirl atomizer --- atomization --- CFD --- Eulerian model --- heat transfer coefficient --- micro-fins --- friction factor --- numerical methods --- micro- and macro-parameters of the atomized liquid --- mechanism of effervescent-swirl atomization --- efficiency of atomization process --- effervescent-swirl atomizer --- fixed-bed reactor --- wall structures --- complex particle shapes --- process intensification --- heat transfer --- photovoltaic cell efficiency --- thermal regulation --- energy and light harvesting --- irreversibility losses --- quantum dynamics --- nature-inspired mimicking --- heat transfer enhancement --- radiation insert --- numerical simulations --- performance evaluation criteria --- thermal efficiency --- particle sedimentation --- resistance force --- fractional-order integro-differential equation --- laplace transform --- Mittag–Leffler function --- block-pulse operational matrix --- Nu number --- microchannel heat sink --- trefoil ribs --- thermal enhancement --- thermal resistance --- triple-tube heat exchanger --- twisted fin array --- phase change material --- solidification --- nanofluids advantages and disadvantages --- thermal hydraulic performance --- vortex generators --- micro-channel --- auxiliary feedwater system --- cavitation --- computational fluid dynamics --- in-service testing --- multiphase flow --- multi-stage orifice --- nonuniform metal foam --- melting heat transfer --- thermal energy storage --- conical swirl atomizer --- atomization --- CFD --- Eulerian model --- heat transfer coefficient --- micro-fins --- friction factor --- numerical methods --- micro- and macro-parameters of the atomized liquid --- mechanism of effervescent-swirl atomization --- efficiency of atomization process --- effervescent-swirl atomizer --- fixed-bed reactor --- wall structures --- complex particle shapes --- process intensification --- heat transfer --- photovoltaic cell efficiency --- thermal regulation --- energy and light harvesting --- irreversibility losses --- quantum dynamics --- nature-inspired mimicking --- heat transfer enhancement --- radiation insert --- numerical simulations --- performance evaluation criteria --- thermal efficiency --- particle sedimentation --- resistance force --- fractional-order integro-differential equation --- laplace transform --- Mittag–Leffler function --- block-pulse operational matrix --- Nu number --- microchannel heat sink --- trefoil ribs --- thermal enhancement --- thermal resistance --- triple-tube heat exchanger --- twisted fin array --- phase change material --- solidification --- nanofluids advantages and disadvantages --- thermal hydraulic performance --- vortex generators --- micro-channel

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