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Heat Transfer Engineering Volume 29, 2008 - Issue 1
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Evaluation of Approaches for Modeling Temperature Wave Propagation in District Heating Pipelines

Irina Gabrielaitiene Department of Energy Sciences, Lund University, Lund, Sweden
,
Benny Bøhm Department of Mechanical Engineering, Technical University of Denmark, Lyngby, Denmark
&
Bengt Sunden Department of Energy Sciences, Lund University, Lund, Sweden
Pages 45-56 | Published online: 14 Jul 2010

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Saleh S. Meibodi & Simon Rees. (2023) Experimental validation of the dynamic thermal network approach in modeling buried pipes. Science and Technology for the Built Environment 29:6, pages 589-605.
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Alessandro Dalla Rosa, Hongwei Li & Svend Svendsen. (2013) Modeling Transient Heat Transfer in Small-Size Twin Pipes for End-User Connections to Low-Energy District Heating Networks. Heat Transfer Engineering 34:4, pages 372-384.
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Irena Gabrielaitienė, Benny Bøhm & Bengt Sundén. (2011) Dynamic temperature simulation in district heating systems in Denmark regarding pronounced transient behaviour. Journal of Civil Engineering and Management 17:1, pages 79-87.
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Articles from other publishers (35)

Saleh S. Meibodi, Simon Rees & Fleur Loveridge. (2024) Modeling district heating pipelines using a hybrid dynamic thermal network approach. Energy 290, pages 130107.
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Zichan Xie, Haichao Wang, Pengmin Hua & Risto Lahdelma. (2023) Discrete event simulation for dynamic thermal modelling of district heating pipe. Energy 285, pages 129523.
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A. Dénarié, M. Aprile & M. Motta. (2023) Dynamical modelling and experimental validation of a fast and accurate district heating thermo-hydraulic modular simulation tool. Energy 282, pages 128397.
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Mengting Jiang, Michel Speetjens, Camilo Rindt & David Smeulders. (2023) A data-based reduced-order model for dynamic simulation and control of district-heating networks. Applied Energy 340, pages 121038.
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Jinfu Zheng, Zhigang Zhou, Jinda Wang & Songtao Hu. (2022) Research on dynamic thermal characteristics of district heating systems based on return temperatures at heat sources. Applied Thermal Engineering 214, pages 118883.
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Y. N. Zvonareva, R. V. Akhmetova, K. I. Tursunov & I. R. Shorohov. (2022) The impact of the technical decisions made in the operation of energy systems in Tashkent city. Power engineering: research, equipment, technology 24:1, pages 74-85.
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N. N. Novitskii, Z. I. Shalaginova, A. V. Alekseev, O. A. Grebneva, V. V. Tokarev, A. V. Lutsenko & O. V. Vanteeva. (2022) Intellectualization of Heat-Supply Systems: Current State, Trends and Tasks (a Review). Thermal Engineering 69:5, pages 367-383.
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R.W. Moss & R.E. Critoph. (2022) Optimisation of a recirculating domestic hot water system to minimise wait time and heat loss. Energy and Buildings 260, pages 111850.
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Martina Capone, Elisa Guelpa & Vittorio Verda. (2021) Accounting for pipeline thermal capacity in district heating simulations. Energy 219, pages 119663.
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Shuai Yao, Wei Gu, Chengzhi Zhu, Suyang Zhou, Zhi Wu & Zhiyang Zhang. (2020) A Novel Cross Iteration Method for Dynamic Energy Flow Calculation of the Hot-water Heating Network in the Integrated Energy System. A Novel Cross Iteration Method for Dynamic Energy Flow Calculation of the Hot-water Heating Network in the Integrated Energy System.
Jacopo Vivian, Davide Quaggiotto & Angelo Zarrella. (2020) Increasing the energy flexibility of existing district heating networks through flow rate variations. Applied Energy 275, pages 115411.
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Nikolay N. Novitsky, Zoya I. Shalaginova, Aleksandr A. Alekseev, Vyacheslav V. Tokarev, Oksana A. Grebneva, Aleksandr V. Lutsenko, Olga V. Vanteeva, Egor A. Mikhailovsky, Roman Pop, Petr Vorobev & Michael Chertkov. (2020) Smarter Smart District Heating. Proceedings of the IEEE 108:9, pages 1596-1611.
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Saleh Salavati Meibodi & Simon Rees. (2020) Dynamic thermal response modelling of turbulent fluid flow through pipelines with heat losses. International Journal of Heat and Mass Transfer 151, pages 119440.
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Robert E. Best, P. Rezazadeh Kalehbasti & Michael D. Lepech. (2020) A novel approach to district heating and cooling network design based on life cycle cost optimization. Energy 194, pages 116837.
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Martina Capone, Elisa Guelpa & Vittorio Verda. (2020) Numerical Model for the Analysis of Thermal Transients in District Heating Networks. E3S Web of Conferences 197, pages 01004.
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Michael Chertkov & Nikolai N. Novitsky. (2019) Thermal Transients in District Heating Systems. Energy 184, pages 22-33.
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P. Nageler, R. Heimrath, T. Mach & C. Hochenauer. (2019) Prototype of a simulation framework for georeferenced large-scale dynamic simulations of district energy systems. Applied Energy 252, pages 113469.
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Manuel Betancourt Schwarz, Mohamed Tahar Mabrouk, Carlos Santo Silva, Pierrick Haurant & Bruno Lacarrière. (2019) Modified finite volumes method for the simulation of dynamic district heating networks. Energy 182, pages 954-964.
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Slađana Lazarević, Velimir Čongradac, Aleksandar S. Anđelković, Darko Čapko & Željko Kanović. (2019) A novel approach to real-time modelling of the district heating substation system using LabVIEW. Journal of Cleaner Production 217, pages 360-370.
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A. Dénarié, M. Aprile & M. Motta. (2019) Heat transmission over long pipes: New model for fast and accurate district heating simulations. Energy 166, pages 267-276.
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Mario Potente Prieto, Nina Solomakhina & Pilar Monsalvete Álvarez de Uribarri. 2019. Urban Energy Systems for Low-Carbon Cities. Urban Energy Systems for Low-Carbon Cities 181 239 .
Jinda Wang, Zhigang Zhou, Jianing Zhao & Jinfu Zheng. (2018) Improving wind power integration by a novel short-term dispatch model based on free heat storage and exhaust heat recycling. Energy 160, pages 940-953.
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Asad Ashfaq & Anton Ianakiev. (2018) Investigation of hydraulic imbalance for converting existing boiler based buildings to low temperature district heating. Energy 160, pages 200-212.
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Hai Wang & Hua Meng. (2018) Improved thermal transient modeling with new 3-order numerical solution for a district heating network with consideration of the pipe wall's thermal inertia. Energy 160, pages 171-183.
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J. Vivian, P. Monsalvete Álvarez de Uribarri, U. Eicker & A. Zarrella. (2018) The effect of discretization on the accuracy of two district heating network models based on finite-difference methods. Energy Procedia 149, pages 625-634.
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Mohamed Tahar Mabrouk, Pierrick Haurant, Vincent Dessarthe, Patrick Meyer & Bruno Lacarrière. (2018) Combining a dynamic simulation tool and a multi-criteria decision aiding algorithm for improving existing District Heating. Energy Procedia 149, pages 266-275.
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Hai Wang, Hua Meng & Tong Zhu. (2018) New model for onsite heat loss state estimation of general district heating network with hourly measurements. Energy Conversion and Management 157, pages 71-85.
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Kevin Sartor. (2017) Simulation Models to Size and Retrofit District Heating Systems. Energies 10:12, pages 2027.
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Yaran Wang, Shijun You, Huan Zhang, Xuejing Zheng, Wandong Zheng, Qingwei Miao & Gang Lu. (2017) Thermal transient prediction of district heating pipeline: Optimal selection of the time and spatial steps for fast and accurate calculation. Applied Energy 206, pages 900-910.
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K. Sartor & P. Dewalef. (2017) Experimental validation of heat transport modelling in district heating networks. Energy 137, pages 961-968.
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Jinfu Zheng, Zhigang Zhou, Jianing Zhao & Jinda Wang. (2017) Function method for dynamic temperature simulation of district heating network. Applied Thermal Engineering 123, pages 682-688.
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Jinda Wang, Zhigang Zhou & Jianing Zhao. (2016) A method for the steady-state thermal simulation of district heating systems and model parameters calibration. Energy Conversion and Management 120, pages 294-305.
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Shou-jun Zhou, Mao-cheng Tian, You-en Zhao & Min Guo. (2014) Dynamic modeling of thermal conditions for hot-water district-heating networks. Journal of Hydrodynamics 26:4, pages 531-537.
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Kent C.B. Steer, Andrew Wirth & Saman K. Halgamuge. (2012) Decision tree ensembles for online operation of large smart grids. Energy Conversion and Management 59, pages 9-18.
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K.C.B. Steer, A. Wirth & S.K. Halgamuge. (2011) Control period selection for improved operating performance in district heating networks. Energy and Buildings 43:2-3, pages 605-613.
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