Energy Performance Of Buildings Ventilation For Buildings Calculation Methods For Energy Requirements Of Ventilation And Air Conditioning Systems Modules M5 6 M5 8 M6 5 M6 8 M7 5 M7 8 Method 1

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Design of Heat Exchangers for Heat Pump Applications

Author: Marco Fossa

language: en

Publisher: MDPI

Release Date: 2020-12-28

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Heat pumps (HPs) allow for providing heat without direct combustion, in both civil and industrial applications. They are very efficient systems that, by exploiting electrical energy, greatly reduce local environmental pollution and CO2 global emissions. The fact that electricity is a partially renewable resource and because the coefficient of performance (COP) can be as high as four or more, means that HPs can be nearly carbon neutral for a full sustainable future. The proper selection of the heat source and the correct design of the heat exchangers is crucial for attaining high HP efficiencies. Heat exchangers (also in terms of HP control strategies) are hence one of the main elements of HPs, and improving their performance enhances the effectiveness of the whole system. Both the heat transfer and pressure drop have to be taken into account for the correct sizing, especially in the case of mini- and micro-geometries, for which traditional models and correlations can not be applied. New models and measurements are required for best HPs system design, including optimization strategies for energy exploitation, temperature control, and mechanical reliability. Thus, a multidisciplinary approach of the analysis is requested and become the future challenge.

Sustainability Certifications, Labels and Tools in the Built Environment

Author: Francesco Asdrubali

language: en

Publisher: Taylor & Francis

Release Date: 2025-06-30

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This book is aimed at covering all aspects of the evaluation, certification, and reduction of the energy and carbon footprint of the built environment from the scale of the city and its neighbourhoods, to the building level and finally to the level of single building materials and components. Many protocols, tools, and labels have been proposed in recent years, both at international and local levels, and the aim of the book is to classify, describe, and discuss all the different approaches and options. The chapters offer a comprehensive, up-to-date, and critical review of all the different certification methods that have been proposed at different levels in the building sector. The first chapter introduces the topic and its importance, providing data on the impact of the building sector and the construction industry. The following chapters are dedicated respectively to tools and protocols for cities and neighbourhood sustainability assessment, tools and protocols for buildings sustainability assessment and certification, and for building materials and components. Finally, this book includes an overview of the legislation and standards in the field and case studies to exemplify the application of the different tools and labels. This is a key reference for decision-makers, researchers, scholars, students, and professionals approaching research and work in the field of energy and environmental impact of the building sector be they engineers, architects, planners, owners, developers, or facility managers.