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International Journal of Sustainable Engineering Volume 5, 2012 - Issue 2
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Original Articles

Harvesting heat energy from asphalt pavements: development of and comparison between numerical models and experiment

Rajib B. Mallick Civil and Environmental Engineering Department, Worcester Polytechnic Institute (WPI), 100 Institute Road, Worcester, MA, 01609, USACorrespondence[email protected]
,
Bao-Liang Chen Civil and Environmental Engineering Department, Worcester Polytechnic Institute (WPI), 100 Institute Road, Worcester, MA, 01609, USA
&
Sankha Bhowmick Department of Mechanical Engineering, University of Massachusetts, North Dartmouth, MA, USA
Pages 159-169 | Received 30 Jun 2010, Accepted 21 Mar 2011, Published online: 19 Apr 2011

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Mohammadreza Gholikhani, Mohammadali Sharzehee, Seyed Amid Tahami, Frances Martinez, Samer Dessouky & Lubinda F. Walubita. (2020) Effect of electromagnetic energy harvesting technology on safety and low power generation in sustainable transportation: a feasibility study. International Journal of Sustainable Engineering 13:5, pages 373-386.
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Khairun Nisa Khamil, Mohd Faizul Mohd Sabri & Azdiana Md Yusop. (2020) Thermoelectric energy harvesting system (TEHs) at asphalt pavement with a subterranean cooling method. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 0:0, pages 1-17.
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Articles from other publishers (41)

Taher Ghalandari, Lei Shi, Farshid Sadeghi-Khanegah, Wim Van den bergh & Cedric Vuye. (2023) Utilizing artificial neural networks to predict the asphalt pavement profile temperature in western Europe. Case Studies in Construction Materials 18, pages e02130.
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Ando Ny Aina Randriantsoa, Damien Ali Hamada Fakra, Luc Rakotondrajaona & Wynand Jacobus Van Der Merwe Steyn. (2022) Recent Advances in Hybrid Energy Harvesting Technologies Using Roadway Pavements: A Review of the Technical Possibility of Using Piezo-thermoelectrical Combinations. International Journal of Pavement Research and Technology 16:4, pages 796-821.
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Ehsan Rohani, Gwan S. Choi & Philip Park. (2023) Optimization of a Two-Level Thermoelectric System for Pavement Energy Harvesting. Optimization of a Two-Level Thermoelectric System for Pavement Energy Harvesting.
I. Kousis & A.L. Pisello. (2023) Evaluating the performance of cool pavements for urban heat island mitigation under realistic conditions: A systematic review and meta-analysis. Urban Climate 49, pages 101470.
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Joel Songok, Anne Mäkiranta, Nada Rapantova, Pavel Pospisil & Birgitta Martinkauppi. (2023) Numerical simulation of heat recovery from asphalt pavement in Finnish climate conditions. International Journal of Thermal Sciences 187, pages 108181.
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Taher Ghalandari, Alalea Kia, David M.G. Taborda, Wim Van den bergh & Cedric Vuye. (2023) Thermal performance optimisation of Pavement Solar Collectors using response surface methodology. Renewable Energy.
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Behnam Ghorbani, Arul Arulrajah, Guillermo A. Narsilio, Suksun Horpibulsuk & Apinun Buritatum. (2023) Geothermal Pavements: Experimental Testing, Prototype Testing, and Numerical Analysis of Recycled Demolition Wastes. Sustainability 15:3, pages 2680.
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Jian Wei, Yuqi Zhou, Yuan Wang, Zhuang Miao, Yupeng Guo, Dongming Gao, Hao Zhang & Xueting Li. (2022) Recent advances in thermoelectric technology to harvest energy from the pavement. International Journal of Energy Research 46:8, pages 10453-10474.
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Xiaokong Yu, Mehdi ZadshirJessie Ruixuan YanHuiming Yin. (2022) Morphological, Thermal, and Mechanical Properties of Asphalt Binders Modified by Graphene and Carbon Nanotube. Journal of Materials in Civil Engineering 34:5.
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Taher Ghalandari, Robin Baetens, Ivan Verhaert, Diana SNM Nasir, Wim Van den bergh & Cedric Vuye. (2022) Thermal performance of a controllable pavement solar collector prototype with configuration flexibility. Applied Energy 313, pages 118908.
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Xing Gong, WeiDong Liu & Hong Ying. (2021) Phase Change Heat-induced Structure of Asphalt Pavement for Reducing the Pavement Temperature. Iranian Journal of Science and Technology, Transactions of Civil Engineering 46:2, pages 1655-1668.
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Taher Ghalandari, Navid Hasheminejad, Wim Van den bergh & Cedric Vuye. (2021) A critical review on large-scale research prototypes and actual projects of hydronic asphalt pavement systems. Renewable Energy 177, pages 1421-1437.
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Taher Ghalandari, David Ceulemans, Navid Hasheminejad, Gert Guldentops, Wim Van den bergh, Ivan Verhaert & Cedric Vuye. (2021) A simplified model to assess the thermal performance of pavement solar collectors. Applied Thermal Engineering 197, pages 117400.
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Dardan Klimenta, Miroljub Jevtić, Darius Andriukaitis & Vladica Mijailović. (2021) Increasing the transmission performance of a conventional 110 kV cable line by combining a hydronic concrete pavement system with photovoltaic floor tiles. Electrical Engineering 103:3, pages 1401-1415.
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Mai Yang, Xuelai Zhang, Xinchen Zhou, Biao Liu, Xiang Wang & Xiangwei Lin. (2021) Research and Exploration of Phase Change Materials on Solar Pavement and Asphalt Pavement: A review. Journal of Energy Storage 35, pages 102246.
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Khairun Nisa Khamil, Mohd Faizul Mohd Sabri, Azdiana Md Yusop, Fatimah Al‐Zahrah Mohd Sa'at & Ahmad Nizam Isa. (2020) High cooling performances of H‐shape heat sink for thermoelectric energy harvesting system ( TEHs ) at asphalt pavement . International Journal of Energy Research 45:2, pages 3242-3256.
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Ling Xu, Jiayu Wang, Feipeng Xiao, Sherif EI-Badawy & Ahmed Awed. (2021) Potential strategies to mitigate the heat island impacts of highway pavement on megacities with considerations of energy uses. Applied Energy 281, pages 116077.
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Ning Xie, Hui Li, Hengji Zhang, Xue Zhang & Ming Jia. (2020) Effects of accelerated weathering on the optical characteristics of reflective coatings for cool pavement. Solar Energy Materials and Solar Cells 215, pages 110698.
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Yanjing Zhao, Jiwang Jiang, Yiqing Dai, Lan Zhou & Fujian Ni. (2020) Thermal Property Evaluation of Porous Asphalt Concrete Based on Heterogeneous Meso-Structure Finite Element Simulation. Applied Sciences 10:5, pages 1671.
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Dardan Klimenta, Dragan Tasić & Miroljub Jevtić. (2020) The use of hydronic asphalt pavements as an alternative method of eliminating hot spots of underground power cables. Applied Thermal Engineering 168, pages 114818.
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Mohammadreza Gholikhani, Hossein Roshani, Samer Dessouky & A.T. Papagiannakis. (2020) A critical review of roadway energy harvesting technologies. Applied Energy 261, pages 114388.
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Martin Hendel. 2020. Eco-Efficient Pavement Construction Materials. Eco-Efficient Pavement Construction Materials 97 125 .
Xingyi Zhu, Yue Yu & Feng Li. (2019) A review on thermoelectric energy harvesting from asphalt pavement: Configuration, performance and future. Construction and Building Materials 228, pages 116818.
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Bochao Zhou, Jianzhong Pei, Bin Xue, Fucheng Guo, Yong Wen, Jiupeng Zhang & Rui Li. (2019) Solar/road from ‘forced coexistence’ to ‘harmonious symbiosis’. Applied Energy 255, pages 113808.
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Junjie Feng & Guansheng Yin. (2019) Thermal Analyses and Responses of Bridge Deck Hydronic Snow Melting System. Advances in Civil Engineering 2019, pages 1-14.
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Saifuddin Ahmad, Muhammad Abdul Mujeebu & Mohd. Ahmadullah Farooqi. (2019) Energy harvesting from pavements and roadways: A comprehensive review of technologies, materials, and challenges. International Journal of Energy Research 43:6, pages 1974-2015.
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Seyed Amid Tahami, Mohammadreza Gholikhani, Reza Nasouri, Samer Dessouky & A.T. Papagiannakis. (2019) Developing a new thermoelectric approach for energy harvesting from asphalt pavements. Applied Energy 238, pages 786-795.
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Ning Xie, Hui Li, Ahmed Abdelhady & John Harvey. (2019) Laboratorial investigation on optical and thermal properties of cool pavement nano-coatings for urban heat island mitigation. Building and Environment 147, pages 231-240.
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Alejandro Alonso-Estébanez, Pablo Pascual-Muñoz, José Luis Sampedro-García & Daniel Castro-Fresno. (2017) 3D numerical modelling and experimental validation of an asphalt solar collector. Applied Thermal Engineering 126, pages 678-688.
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Pan Pan, Shaopeng Wu, Xiaodi Hu, Peng Wang & Quantao Liu. (2017) Effect of freezing-thawing and ageing on thermal characteristics and mechanical properties of conductive asphalt concrete. Construction and Building Materials 140, pages 239-247.
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Lukai Guo & Qing Lu. (2017) Potentials of piezoelectric and thermoelectric technologies for harvesting energy from pavements. Renewable and Sustainable Energy Reviews 72, pages 761-773.
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Jaehong Kim, Seung-Tae Lee, Sunglin Yang & Jaejun Lee. (2017) Implementation of Thermal-Energy-Harvesting Technology on Pavement. Journal of Testing and Evaluation 45:2, pages 20140396.
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Pan Pan, Shaopeng Wu, Xiaodi Hu, Gang Liu & Bo Li. (2017) Effect of Material Composition and Environmental Condition on Thermal Characteristics of Conductive Asphalt Concrete. Materials 10:3, pages 218.
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A. Chiarelli, A. Al-Mohammedawi, A.R. Dawson & A. García. (2017) Construction and configuration of convection-powered asphalt solar collectors for the reduction of urban temperatures. International Journal of Thermal Sciences 112, pages 242-251.
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Lala Dakessian, Hagop Harfoushian, David Habib, Ghassan R. Chehab, George Saad & Issam Srour. (2016) Finite Element Approach to Assess the Benefits of Asphalt Solar Collectors. Transportation Research Record: Journal of the Transportation Research Board 2575:1, pages 79-91.
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Yinghong Qin. (2015) A review on the development of cool pavements to mitigate urban heat island effect. Renewable and Sustainable Energy Reviews 52, pages 445-459.
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Pan Pan, Shaopeng Wu, Yue Xiao & Gang Liu. (2015) A review on hydronic asphalt pavement for energy harvesting and snow melting. Renewable and Sustainable Energy Reviews 48, pages 624-634.
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Pan Pan, Shaopeng Wu, Yue Xiao, Peng Wang & Xing Liu. (2014) Influence of graphite on the thermal characteristics and anti-ageing properties of asphalt binder. Construction and Building Materials 68, pages 220-226.
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Y KimPhilip Park, Gwan Choi, Ehsan Rohani & Ikkyun Song. 2014. Asphalt Pavements. Asphalt Pavements 1827 1838 .
Andrew Dawson. 2014. Climate Change, Energy, Sustainability and Pavements. Climate Change, Energy, Sustainability and Pavements 127 157 .
K. Wayne Lee & Steven Kohm. 2014. Climate Change, Energy, Sustainability and Pavements. Climate Change, Energy, Sustainability and Pavements 439 453 .

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