Evaluation of Thermal and Mechanical Properties of Foamed Phosphogypsum-Based Cementitious Materials for Well Cementing in Hydrate Reservoirs

As detrimental byproduct waste generated during the production of fertilizers, phosphogypsum can be harmlessly treated by producing phosphogypsum-based cementitious materials (PGCs) for offshore well cementing in hydrate reservoirs. To be specific, the excellent mechanical properties of PGCs signifi...

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Published inJournal of marine science and engineering Vol. 12; no. 7; p. 1056
Main Authors Tang, Jiadi, Zhao, Yusheng, Cheng, Wan, Liu, Tianle, Yang, Guokun, Chen, Mingsheng, Lei, Gang, Xu, Jian, Huang, Yongning
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2024
Subjects
Cement hydration
Cementing
Compressive strength
Control stability
Exploitation
Fertilizers
Foaming
Foaming agents
Gas hydrates
Heat conductivity
Heat transfer
Hydrates
Hydrogen peroxide
Mechanical properties
Natural gas
natural gas hydrate
Offshore
Performance evaluation
Performance indices
Phosphogypsum
phosphogypsum-based cementitious materials
Porosity
Reservoirs
Risk management
Stability
Temperature
Temperature control
Thermal conductivity
Thermodynamic properties
well cementing
China
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Abstract As detrimental byproduct waste generated during the production of fertilizers, phosphogypsum can be harmlessly treated by producing phosphogypsum-based cementitious materials (PGCs) for offshore well cementing in hydrate reservoirs. To be specific, the excellent mechanical properties of PGCs significantly promote wellbore stability. And the preeminent temperature control performance of PGCs helps to control undesirable gas channeling, increasing the formation stability of natural gas hydrate (NGH) reservoirs. Notably, to further enhance temperature control performance, foaming agents are added to PGCs to increase porosity, which however reduces the compressive strength and increases the risk of wellbore instability. Therefore, the synergetic effect between temperature control performance and mechanical properties should be quantitatively evaluated to enhance the overall performance of foamed PGCs for well cementing in NGH reservoirs. But so far, most existing studies of foamed PGCs are limited to experimental work and ignore the synergetic effect. Motivated by this, we combine experimental work with theoretical work to investigate the correlations between the porosity, temperature control performance, and mechanical properties of foamed PGCs. Specifically, the thermal conductivity and compressive strength of foamed PGCs are accurately determined through experimental measurements, then theoretical models are proposed to make up for the non-repeatability of experiments. The results show that, when the porosity increases from 6% to 70%, the 7 d and 28 d compressive strengths of foamed PGCs respectively decrease from 21.3 MPa to 0.9 MPa and from 23.5 MPa to 1.0 MPa, and the thermal conductivity decreases from 0.33 W·m−1·K−1 to 0.12 W·m−1·K−1. Additionally, an overall performance index evaluation system is established, advancing the application of foamed PGCs for well cementing in NGH reservoirs and promoting the recycling of phosphogypsum.
AbstractList As detrimental byproduct waste generated during the production of fertilizers, phosphogypsum can be harmlessly treated by producing phosphogypsum-based cementitious materials (PGCs) for offshore well cementing in hydrate reservoirs. To be specific, the excellent mechanical properties of PGCs significantly promote wellbore stability. And the preeminent temperature control performance of PGCs helps to control undesirable gas channeling, increasing the formation stability of natural gas hydrate (NGH) reservoirs. Notably, to further enhance temperature control performance, foaming agents are added to PGCs to increase porosity, which however reduces the compressive strength and increases the risk of wellbore instability. Therefore, the synergetic effect between temperature control performance and mechanical properties should be quantitatively evaluated to enhance the overall performance of foamed PGCs for well cementing in NGH reservoirs. But so far, most existing studies of foamed PGCs are limited to experimental work and ignore the synergetic effect. Motivated by this, we combine experimental work with theoretical work to investigate the correlations between the porosity, temperature control performance, and mechanical properties of foamed PGCs. Specifically, the thermal conductivity and compressive strength of foamed PGCs are accurately determined through experimental measurements, then theoretical models are proposed to make up for the non-repeatability of experiments. The results show that, when the porosity increases from 6% to 70%, the 7 d and 28 d compressive strengths of foamed PGCs respectively decrease from 21.3 MPa to 0.9 MPa and from 23.5 MPa to 1.0 MPa, and the thermal conductivity decreases from 0.33 W·m−1·K−1 to 0.12 W·m−1·K−1. Additionally, an overall performance index evaluation system is established, advancing the application of foamed PGCs for well cementing in NGH reservoirs and promoting the recycling of phosphogypsum.
Author Yang, Guokun
Chen, Mingsheng
Liu, Tianle
Xu, Jian
Zhao, Yusheng
Lei, Gang
Huang, Yongning
Tang, Jiadi
Cheng, Wan
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Snippet As detrimental byproduct waste generated during the production of fertilizers, phosphogypsum can be harmlessly treated by producing phosphogypsum-based...
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SubjectTerms Cement hydration
Cementing
Compressive strength
Control stability
Exploitation
Fertilizers
Foaming
Foaming agents
Gas hydrates
Heat conductivity
Heat transfer
Hydrates
Hydrogen peroxide
Mechanical properties
Natural gas
natural gas hydrate
Offshore
Performance evaluation
Performance indices
Phosphogypsum
phosphogypsum-based cementitious materials
Porosity
Reservoirs
Risk management
Stability
Temperature
Temperature control
Thermal conductivity
Thermodynamic properties
well cementing
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Title Evaluation of Thermal and Mechanical Properties of Foamed Phosphogypsum-Based Cementitious Materials for Well Cementing in Hydrate Reservoirs
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https://doaj.org/article/eccc018afd114b46a78027f525dee807
Volume 12
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