Reprint

Heat Transfer and Heat Recovery Systems

Edited by
April 2023
300 pages
  • ISBN978-3-0365-7369-4 (Hardback)
  • ISBN978-3-0365-7368-7 (PDF)

This book is a reprint of the Special Issue Heat Transfer and Heat Recovery Systems that was published in

Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary

Heat transfer plays a crucial role in modern engineering and energy conversion efficiency. Understanding its mechanisms is essential for sustainable energy management. Waste heat recovery, an increasingly popular strategy, reduces energy consumption and promotes sustainability. This reprint highlights advancements in heat transfer technology and heat recovery systems, addressing the persistent demand for innovative solutions. The content focuses on four main categories: heat transfer and heat exchangers, heat recovery, renewables, and domestic hot water preparation systems.

Format
  • Hardback
License
© by the authors
Keywords
desiccant dehumidification; evaporative cooling; Maisotsenko cycle; greenhouse air-conditioning; Pakistan; waste heat recovery; absorption chiller; data center; sustainability; thermal pollution; thermal solar collectors; useful energy output; energy simulations; solar domestic hot water system; deterministic mathematical model; heat exchanger; plate-fin tube; tube-fin contact; CFD; slotted fin minichannel heat sink; base temperature; thermal management; numerical simulation; fuel cell (FC); phosphoric acid fuel cell (PAFC); combined heat and power (CHP); wasted heat recovery system (WHRS); strategic energy management planning; economic analysis; breaking; desorption; force; speed; acceleration; pressure; dispersed phase; domestic hot water; peak power; energy performance of buildings; DHW; energy transformation; solar thermal energy; SHW system; multi-criteria analysis; SPBT; EPBT; primary energy; IMPACT 2002+; LCA; sustainable design; radiation-convective heat transfer; high-temperature recuperation system; falling-film drain water heat recovery; heat exchanger; TRNSYS; energy simulations; variable plumbing configuration; channels with frustum of a cone; multi-objective optimization; Response Surface Methodology; Sobol’s method; sensitivity analysis; global horizontal irradiance; direct normal irradiance; satellite based SUNY model; combined uncertainty; earth-to-air heat exchanger; air density; specific heat of air; barometric formula; EAHE; outlet temperature; ground temperature; EN ISO 13790; 5R1C model; hourly simulation; two-phase; volumetric expander; review; renewable energy; geothermal; Earth-to-Air Heat eXchangers; ground source heat pumps; n/a