The Experts below are selected from a list of 61842 Experts worldwide ranked by ideXlab platform
Zhou Ying - One of the best experts on this subject based on the ideXlab platform.
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Study on New Thermal Insulation Construction of Thermal Recovery Boiler
Energy Procedia, 2012Co-Authors: Zhao Haiqian, Wu Yongning, Liu Lijun, Li Xiaohui, Liu Xiaoyan, Zhou YingAbstract:Abstract This paper analyzed existing problems of Thermal Insulation construction of Thermal recovery boiler, and studied and designed a new Thermal Insulation construction of Thermal recovery boiler. We carried out Thermal Insulation transformation for transition section of boiler, and tested the Thermal Insulation effect of it. According to the test data, we obtain Thermal conductivity of Thermal Insulation construction of transition section of boiler with and without transformation. Contrast analysis shows that Thermal Insulation effect of new Thermal Insulation construction of Thermal recovery boiler using fibre spray technology is better than common Thermal Insulation construction.It can be applied widely.
Zhao Haiqian - One of the best experts on this subject based on the ideXlab platform.
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Study on New Thermal Insulation Construction of Thermal Recovery Boiler
Energy Procedia, 2012Co-Authors: Zhao Haiqian, Wu Yongning, Liu Lijun, Li Xiaohui, Liu Xiaoyan, Zhou YingAbstract:Abstract This paper analyzed existing problems of Thermal Insulation construction of Thermal recovery boiler, and studied and designed a new Thermal Insulation construction of Thermal recovery boiler. We carried out Thermal Insulation transformation for transition section of boiler, and tested the Thermal Insulation effect of it. According to the test data, we obtain Thermal conductivity of Thermal Insulation construction of transition section of boiler with and without transformation. Contrast analysis shows that Thermal Insulation effect of new Thermal Insulation construction of Thermal recovery boiler using fibre spray technology is better than common Thermal Insulation construction.It can be applied widely.
Yugang Sun - One of the best experts on this subject based on the ideXlab platform.
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Hollow‐Structured Materials for Thermal Insulation
Advanced Materials, 2018Co-Authors: Feng Hu, Siyu Wu, Yugang SunAbstract:Heating and cooling represent a significant portion of overall energy consumption of our society. Due to the diffusive nature of Thermal energy, Thermal Insulation is critical for energy management to reduce energy waste and improve energy efficiency. Thermal Insulation relies on the reduction of Thermal conductivity of appropriate materials that are engineerable in compositions and structures. Hollow-structured materials (HSMs) show a great promise in Thermal Insulation since the existence of high-density gaseous voids breaks the continuity of heat-transport pathways in the HSMs to lower their Thermal conductivities efficiently. Herein, a timely overview of the recent progress in developing HSMs for Thermal Insulation is presented, with the focus on summarizing the strategies for creating gaseous voids in solid materials and thus synthesizing various HSMs. Systematic analysis of the documented results reveals the relationship of Thermal conductivities of the HSMs and the size and density of voids, i.e., reducing the void size below ≈350 nm is more favorable to decrease the Thermal conductivity of the HSMs because of the possible confinement effect originated from the nanometer-sized voids. The challenges and promises of the HSMs faced in future research are also discussed.
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Hollow-Structured Materials for Thermal Insulation.
Advanced materials (Deerfield Beach Fla.), 2018Co-Authors: Yugang SunAbstract:Heating and cooling represent a significant portion of overall energy consumption of our society. Due to the diffusive nature of Thermal energy, Thermal Insulation is critical for energy management to reduce energy waste and improve energy efficiency. Thermal Insulation relies on the reduction of Thermal conductivity of appropriate materials that are engineerable in compositions and structures. Hollow-structured materials (HSMs) show a great promise in Thermal Insulation since the existence of high-density gaseous voids breaks the continuity of heat-transport pathways in the HSMs to lower their Thermal conductivities efficiently. Herein, a timely overview of the recent progress in developing HSMs for Thermal Insulation is presented, with the focus on summarizing the strategies for creating gaseous voids in solid materials and thus synthesizing various HSMs. Systematic analysis of the documented results reveals the relationship of Thermal conductivities of the HSMs and the size and density of voids, i.e., reducing the void size below ≈350 nm is more favorable to decrease the Thermal conductivity of the HSMs because of the possible confinement effect originated from the nanometer-sized voids. The challenges and promises of the HSMs faced in future research are also discussed.
Liu Lijun - One of the best experts on this subject based on the ideXlab platform.
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Study on New Thermal Insulation Construction of Thermal Recovery Boiler
Energy Procedia, 2012Co-Authors: Zhao Haiqian, Wu Yongning, Liu Lijun, Li Xiaohui, Liu Xiaoyan, Zhou YingAbstract:Abstract This paper analyzed existing problems of Thermal Insulation construction of Thermal recovery boiler, and studied and designed a new Thermal Insulation construction of Thermal recovery boiler. We carried out Thermal Insulation transformation for transition section of boiler, and tested the Thermal Insulation effect of it. According to the test data, we obtain Thermal conductivity of Thermal Insulation construction of transition section of boiler with and without transformation. Contrast analysis shows that Thermal Insulation effect of new Thermal Insulation construction of Thermal recovery boiler using fibre spray technology is better than common Thermal Insulation construction.It can be applied widely.
Li Xiaohui - One of the best experts on this subject based on the ideXlab platform.
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Study on New Thermal Insulation Construction of Thermal Recovery Boiler
Energy Procedia, 2012Co-Authors: Zhao Haiqian, Wu Yongning, Liu Lijun, Li Xiaohui, Liu Xiaoyan, Zhou YingAbstract:Abstract This paper analyzed existing problems of Thermal Insulation construction of Thermal recovery boiler, and studied and designed a new Thermal Insulation construction of Thermal recovery boiler. We carried out Thermal Insulation transformation for transition section of boiler, and tested the Thermal Insulation effect of it. According to the test data, we obtain Thermal conductivity of Thermal Insulation construction of transition section of boiler with and without transformation. Contrast analysis shows that Thermal Insulation effect of new Thermal Insulation construction of Thermal recovery boiler using fibre spray technology is better than common Thermal Insulation construction.It can be applied widely.
