Details

<p>&nbsp;Part One&nbsp; Guideline for community energy planning compilation&nbsp; &nbsp;Establishing energy planning objectives.-&nbsp;Energy demand analysis and prediction.-&nbsp;Available energy resource assessment.-&nbsp;Integrated energy system optimization.-&nbsp;Cost-effectiveness analysis of planning proposal.-&nbsp;Implementation management and post-assessment.-&nbsp;Part Two&nbsp; Topical subject research&nbsp; &nbsp; &nbsp;Building energy consumption baseline.-&nbsp;Models for energy demand prediction.-&nbsp;Relationship between community morphology and energy consumption.-&nbsp;Integrated energy system optimization models for community energy plan.-&nbsp;Energy bus system design.-&nbsp;Fuel cell and its application in community energy system.-&nbsp;Policies for community energy.-&nbsp;Energy system optimization in urban renewal.</p>

<div>Hang Yu, Professor, School of Mechanical and Energy Engineering, Tongji University.</div><div>Pro Yu’s research concerns the Net-zero energy building technology, community energy planning and design, heat transfer analysis of building energy storage system. She leads multidisciplinary research teams on integrated energy system, and her research has published in Energy, Renewable energy, Energy Conversion and Management, Energy and building, Renewable & Sustainable Energy Reviews. Yu’s research has received several awards and she has also served as a member of China energy research association of thermodynamics and engineering application committee, a director of Tongji green building society, and senior visiting scholar of Kyushu University, Japan. Now, she involves in the project “Solutions to heating and cooling of building in the Yangtze river region” (Grant No.2016YFC0700305-02) and “The study of energy system and planning optimization technology in urban new district” (Grant No. 2018YFC0704602).&nbsp;</div><div><br></div><div>Dr. Zishuo Huang, Assistant Professor, College of Architecture and Urban Planning, Tongji University.&nbsp;</div><div>Zishuo Huang get his doctorate degree in Tongji University. Dr. Huang’s PhD thesis is about integrated energy system planning, which research concentrated on the future form of urban energy utilization. A new methodology to realize multi energy sources synthetically and efficiently utilization in urban area has been proposed. On account of the urban construction situations in China, a type of urban energy planning method which can integrat in urban detailed plan being developed. Three energy flow analysis models used to support community energy planning at urban detailed plan stage.The research field of Dr. Huang in recent years stilled focused on urban energy system optimization. Now he is responsible for a research project from Shanghai Science and Technology Committee, which research target is clarifying the relationship between agents’ available information and the configuration of urban energy network.</div><div><br></div><div>Yiqun Pan is a full professor of Heating Ventilation and Air Conditioning in the School of Mechanical Engineering at Tongji University, Shanghai, China.</div>&nbsp;Prof. Pan graduated from Tongji Unversity and got her Ph.D degree of Heating Ventilation and Air Conditioning in 1997. She has been teaching in Tongji University since then. She also served the deputy dean of Sino-German College of Applied Sciences in Tongji University from 2006 to 2010, in charge of curriculum and R&D in the college. She has been in Japan, USA and Germany as a visiting scholar several times during 1997 to 2005. She is a member of ASHARE and a Fellow of IBPSA. She is also on the Editorial Board of Journal of Building Performance Simulation and the Vice-President of the Chinese Society of HVAC Simulation Special Committee.<div>Her teaching and research focus on building performance simulation, green building technologies and community energy planning. She has been teaching the building performance simulation and application in the past ten years and have authored two books about Building Energy Simulation and over 110 scientific journal papers.&nbsp;</div><div>She has been participating many international research projects. She led the development of an EnergyPlus Interface in Chinese (VisualEPlus), collaborating with LBNL and Shandong University. She was the PI of several projects about building energy efficiency committed by Siemens Research Center and US Energy Foundation and LBNL. She joined the World Bank / Global Environmental Funding Project “ Research on Implementation Pathway of Integrative Energy Planning based on Demand Side Management” and was in charge of two sub-tasks: (1) Urban energy use prediction (2) Community morphology and energy use.</div><div><br></div><div>Prof. Weiding Long, Distinguished Professor, Intelligent Urbanization Co-creation Center for High Density Region, Tongji University; The Honorary life member, International Institute of Refrigeration (IIR).</div><div>Prof. Long is the advisor, MHURD/GEF/World Bank Project Office, China Urban Scale Building Energy Efficiency and Renewable Energy Application. He is the Advisor, China HVAC (Heating, Ventilation and Air Conditioning) Industry Technology Innovation Alliance; And he is the Chairman of Expert Council, Shanghai Air-conditioning and Refrigeration Institute (SARI), and the Supervisor, Shanghai Society of Refrigeration (SSR).The Research field of Prof. Long in recent years has focused on building energy efficiency, district energy systems, urban energy planning, green building and low carbon city, and facility management. His newly published books are “Demand side community energy planning and energy micro-net technologies” and “Urban planning for low carbon eco-cities” (in Chinese).</div>

<p></p><p>This book systematically introduces readers to the operator method, which can be used in different stages of urban planning. Energy planning should ideally be accompanied by urban planning, ranging from comprehensive planning and detailed planning, to the design of individual construction projects. This book discusses a range of methods and models for defining energy planning objectives; analyzing and predicting energy demand; assessing available energy resources; optimizing integrated energy systems; analyzing the cost-effectiveness of proposals; implementation management; and post-assessment. Part one focuses on energy planning in different urban planning stages, while part two provides detailed discussions of key issues related to energy planning.</p><br><p></p>

<p>Offers a detailed method for community energy planning</p><p>Provides new models for community energy system analysis</p><p>Proposes an integrated solution to reduce community energy consumption by reducing demand, improving local energy resource utilization, and boosting energy systems’ efficiency</p>