<p>This book offers comprehensive coverage of the modern energy challenge of integrating renewable energy sources into district heating (DH) systems. It presents a high level of scientific and technical detail, grounded in original research and a synthesis of consistent bibliographic material. The aim is to address the growing need for modernization and enhanced energy efficiency to significantly reduce CO₂ emissions.</p><p>This book includes physical and mathematical concepts designed to make this publication a self-contained, up-to-date source of information for scientists, researchers, and engineers. It also provides promising directions for future research and innovation in sustainable thermal energy systems.<br>This book features a wide range of content, including theoretical studies, numerical and optimization models, experimental case studies at both laboratory and in situ scales, and numerous practical applications. Key areas of emphasis include:</br></p><ul><li>Development, energy analysis, modeling, and optimization of DH systems.</li><li>Valorization of renewable energy sources.</li><li>Integration of heat pump technologies with renewables into DH systems.</li><li>Analysis of thermal energy storage technologies and their potential integration into DH systems.</li><li>Evaluation of the performance of various medium- and low-temperature heat distribution systems in buildings.</li><li>Advanced applications of renewable energy integration into local and DH systems.</li></ul><p>Structured across nine pedagogically designed chapters, and enriched with illustrations, tables, and examples, this book serves as a thorough guide for researchers, engineers, lecturers, and graduate and Ph.D. students in the field of district heating engineering with integrated renewables.</p>

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Advances in District Heating Systems and Integrating Renewables

  • Ioan Sarbu,
  • Alexandru Dorca

摘要

This book offers comprehensive coverage of the modern energy challenge of integrating renewable energy sources into district heating (DH) systems. It presents a high level of scientific and technical detail, grounded in original research and a synthesis of consistent bibliographic material. The aim is to address the growing need for modernization and enhanced energy efficiency to significantly reduce CO₂ emissions.

This book includes physical and mathematical concepts designed to make this publication a self-contained, up-to-date source of information for scientists, researchers, and engineers. It also provides promising directions for future research and innovation in sustainable thermal energy systems.
This book features a wide range of content, including theoretical studies, numerical and optimization models, experimental case studies at both laboratory and in situ scales, and numerous practical applications. Key areas of emphasis include:

  • Development, energy analysis, modeling, and optimization of DH systems.
  • Valorization of renewable energy sources.
  • Integration of heat pump technologies with renewables into DH systems.
  • Analysis of thermal energy storage technologies and their potential integration into DH systems.
  • Evaluation of the performance of various medium- and low-temperature heat distribution systems in buildings.
  • Advanced applications of renewable energy integration into local and DH systems.

Structured across nine pedagogically designed chapters, and enriched with illustrations, tables, and examples, this book serves as a thorough guide for researchers, engineers, lecturers, and graduate and Ph.D. students in the field of district heating engineering with integrated renewables.