Search Results - "Waste heat"

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  1. 1

    Utilising Data Centres’ Side Streams – A Waste Heat Case Study.

    Authors: Kivijakola, Juuso Heikkinen, Silja Tervonen, Pekka et al.

    Source: Technical Journal / Tehnički Glasnik; Jun2026, Vol. 20 Issue 2, p306-313, 8p

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  2. 2

    弱流海域多源温排水耦合效应数值模拟与机理研究.

    Alternate Title: Numerical simulation and mechanism study on coupled effects of multi-source thermal discharge in weak-flow coastal waters.

    Authors: 王晓东 彭远续" 梁邦炎 et al.

    Source: China Harbour Engineering. May2026, Vol. 46 Issue 5, p1-10. 10p.

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  3. 3

    Feedback Effects of Air-Conditioning Anthropogenic Heat on Cooling Energy Consumption in Residential Buildings: A CFD–EnergyPlus Co-Simulation Study.

    Authors: Fan, Chengliang Chen, Jie Yu, Peng

    Source: Buildings (2075-5309); Apr2026, Vol. 16 Issue 8, p1610, 23p

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  4. 4

    Title Use of Waste Heat from Generator Sets as the Low-Temperature Heat Source for Heat Pumps.

    Authors: Rabczak, Sławomir Nowak, Krzysztof Nowak, Karol

    Source: Energies (19961073). Jan2026, Vol. 19 Issue 2, p361. 27p.

    Subject Terms: *Waste heat, *Heat pumps, *Energy consumption, *Heat storage, *Heat recovery, *Distributed power generation, *Electric generators

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  5. 5

    Characteristics and Impact of Fouling from Copper Production on the Operation of a Waste Heat Recovery Boiler.

    Authors: Urbaniak, Roksana Hadała, Beata Kacperski, Marcin

    Source: Energies (19961073). Jan2026, Vol. 19 Issue 1, p31. 12p.

    Subject Terms: *Fouling, *Waste heat boilers, *Heat transfer, *Energy consumption, *Finite element method, *Surface coatings, *Copper industry, *Chemical structure

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  6. 6

    Experimental Investigation of a Low-Temperature Ejector-Based Air-Conditioning System Driven by CHP Heat.

    Authors: Kapayeva, Sarken Cieślik, Jacek Bergander, Marek

    Source: Applied Sciences (2076-3417); Mar2026, Vol. 16 Issue 6, p3108, 23p

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  7. 7

    Evaluation of the Efficiency and Strength Analysis of Profiled Heating Surfaces with Controlled Flow Separation in Marine Waste Heat Recovery Boilers.

    Authors: Kuznetsova, Svitlana Lytvynenko, Dmytro Kuznetsov, Valerii

    Source: Polish Maritime Research. Mar2026, Vol. 33 Issue 1, p99-106. 8p.

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  8. 8

    Batteryless IoT Sensing Using Thermoelectric Energy Harvesting from Industrial Motor Waste Heat.

    Authors: Bancik, Kamil Konecny, Jaromir Stankus, Martin et al.

    Source: Sensors (14248220). Mar2026, Vol. 26 Issue 5, p1644. 22p.

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  9. 9

    Synergistic Coupling of Waste Heat and Power to Gas via PEM Electrolysis for District Heating Applications.

    Authors: Massulli, Axel Riccardo Pastore, Lorenzo Mario Lo Basso, Gianluigi et al.

    Source: Energies (19961073). Oct2025, Vol. 18 Issue 19, p5190. 18p.

    Subjects: Waste heat, Hydrogen production, Heating from central stations, Clean energy, Heat recovery, Energy consumption

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  10. 10

    Wenn Server Städte wärmen: Nutzung der Abwärme aus Rechenzentren.

    Authors: Müller, Kurt1 agendabuero@offenbach.de

    Source: Politische Ökologie. dez2025, Issue 183, p89-93. 5p.

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  11. 11

    The power of thermoelastic harvesting of low-grade waste heat: A question of timing the heat exchange.

    Authors: Neumann, Bruno Jocobi, Giovanna Izadi, Ali et al.

    Source: APL Energy. Dec2025, Vol. 3 Issue 4, p1-7. 7p.

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  12. 12

    Increasing the Efficiency of a Small Heat Source by Reusing its Waste Heat.

    Alternate Title: Zvyšovanie účinnosti malých zdrojov tepla využitím ich odpadového tepla.

    Authors: JANDAČKA, Jozef MALCHO, Milan NEMEC, Patrik et al.

    Source: Waste Forum. 2025, Issue 4, p273-281. 9p.

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  13. 13

    Atık polikarbonattan elde edilen pirolitik gaz ile WO3'ün indirgenmesi.

    Alternate Title: Reduction of WO3 by pyrolytic gas derived from waste polycarbonate.

    Authors: Altay, Melek Cumbul Tore, Goktug Eroglu, Serafettin

    Source: Journal of the Faculty of Engineering & Architecture of Gazi University / Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi,. 2025, Vol. 40 Issue 3, p2047-2055. 9p.

    Subjects: Reducing agents, Waste heat, X-ray diffraction, Mass measurement, Polycarbonates

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  14. 14

    Experimental Study on Corrosion Mechanisms and Kinetics in the Waste Heat Boiler of an Industrial Copper Flash Smelting Furnace.

    Authors: Wan, Xingbang Zhou, Liang Zhang, Jiayuan et al.

    Source: JOM: The Journal of The Minerals, Metals & Materials Society (TMS). May2026, Vol. 78 Issue 5, p3960-3969. 10p.

    Subjects: Corrosion & anti-corrosives, Waste heat boilers, Ferrous sulfate, Corrosion engineering, Smelting furnaces, Activation energy, Chemical kinetics, Deterioration of materials

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  15. 15

    Data Centers With Direct Liquid‐Cooled Servers: Experimental Analysis and Modeling.

    Authors: Stahlhut, Maximilian Sekulla, Markus Großöhme, Peter et al.

    Source: Energy Science & Engineering. Jul2025, Vol. 13 Issue 7, p3605-3619. 15p.

    Subject Terms: *Waste heat, *Waste recycling, *Information technology equipment, *Data centers, *Electric power consumption

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  16. 16

    1000 MW 机组机炉耦合烟气余热深度 利用系统节能特性研究.

    Alternate Title: Research on energy-saving characteristics of 1000 MW unit-furnace coupling flue gas waste heat deep utilization system.

    Authors: 林跃 李贵鹏 于海义 et al.

    Source: Clean Coal Technology. 2025 Supplement, Vol. 31, p741-746. 6p.

    Subject Terms: *Waste heat, *Energy consumption, *Boiler efficiency, *Heat recovery, *Energy conservation

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  17. 17

    硫磺回收装置制硫炉余热锅炉结垢堵塞 原因分析及对策.

    Alternate Title: Cause analysis and countermeasures of fouling and blockage of waste heat boiler of sulfur furnace in sulfur recovery unit.

    Authors: 贾正万 陈进旺 白新华

    Source: Chemical Engineering of Oil & Gas / Shi You Yu Tian Ran Qi Hua Gong. Apr2025, Vol. 54 Issue 2, p29-34. 6p.

    Subjects: Waste heat boilers, Waste gases, Water-gas, Sulfur, Furnaces, Waste heat

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  18. 18

    R1233zd(E) and Dimethylacetamide-based Diffusion Absorption Cooling System.

    Authors: Gurevich, B. Zohar, A.

    Source: International Journal of Thermodynamics; Sep2025, Vol. 28 Issue 3, p196-204, 9p

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  19. 19

    Performance of thermoelectric generator system to generate electrical output from a low-grade waste heat temperature under linear and swirling waste heat streams.

    Authors: Hamdan, Muhammad Hadrami Zamri, Nur Faranini Remeli, Muhammad Fairuz et al.

    Source: ESTEEM. Sep2025, Vol. 22, p100-116. 17p.

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  20. 20

    Thermoelectric Properties of Metallic and Non-Metallic Textile Thermocouples: A Comparative Study.

    Authors: Jangra, Vivek Maity, Subhankar Vishnoi, Prashant

    Source: Journal of Electronic Materials; Aug2025, Vol. 54 Issue 8, p6256-6274, 19p

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