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All Journal Mimbar Agama Budaya Journal of Emerging Science and Engineering
Li, Wenhua
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Religion Arts Humanities Education Engineering Environmental Science Social Sciences

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Digital Religious Discourse: Constructing Legitimacy and Counter-Narratives in Islami.co Ats Tsaqofi, Waki; Satori, Achmad; Mahmudah, Sarah Hajar; Saehudin, Akhmad; Abshar, Ulil; Li, Wenhua
Mimbar Agama Budaya Vol. 42 No. 1 (2025)
Publisher : Center for Research and Publication (PUSLITPEN), UIN Syarif Hidayatullah Jakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15408/mimbar.v42i1.48924

Abstract

Digital controversies around Al-Māʾidah 5:51 and the Ahok case have sharpened struggles over Qur’anic authority in Indonesia’s public sphere. This article examines how the progressive portal Islami.co constructs religious legitimacy and counter-narratives in this context. Using qualitative critical discourse analysis, it analyzes fourteen opinion and expository articles on verse politicization, Qur’an translation, and digital daʿwah, applying Fairclough’s three-dimensional model and van Leeuwen’s legitimation categories. The study finds three mechanisms of legitimation: (1) semantic reframing of key terms such as awliyāʾ/wali; (2) intertextual authority through selective use of classical tafsīr, fiqh, and contemporary scholarship; and (3) moral evaluation foregrounding justice, maṣlaḥah, and plural coexistence. These strategies underwrite counter-narratives that decouple voting for non-Muslim leaders from accusations of betrayal, critique terjemahisme and post-truth uses of state translations, and oppose Islam marah with an ethic of Islam ramah. The findings show how progressive Islamic counter-publics linguistically contest conservative monopolies over Qur’anic discourse.
Research status and development trends of wind-induced vibration technology for photovoltaic support systems Hu, Jiashun; Li, Wenhua; Sun, Tao; Shi, Mingjie; Yang, Fan
Journal of Emerging Science and Engineering Vol. 4 No. 2 (2026)
Publisher : BIORE Scientia Academy

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61435/jese.2026.e65

Abstract

Against the backdrop of global energy transition, photovoltaic (PV) power generation has witnessed rapid expansion, with China’s newly installed capacity in 2024 accounting for 52.4% of global additions. However, PV support systems face significant wind-induced vibration challenges in complex scenarios. This study systematically reviews advances in wind-induced vibration mitigation technologies for PV supports. First, structural characteristics and failure mechanisms are analyzed for fixed-axis, single-/dual-axis tracking, cable-suspended flexible, and offshore PV support systems. Second, synergistic applications of wind tunnel tests, numerical simulations, and field monitoring are reviewed to reveal nonlinear dynamic mechanisms such as vortex-induced vibration (VIV) and flutter. Third, many important dominant factors, such as aerodynamic parameters, geometric parameters, structural parameters, topographic effects are analyzed in detail. And design strategies such as prestress optimization, damping enhancement, and stiffness assignment are used to mitigate wind-induced vibration response in practice. Current challenges are discussed including unclear dynamic aeroelastic coupling mechanisms, insufficient scaling model similarity, and lack of standards for diverse scenarios. In future, developing high-fidelity multi-physical models, intelligent vibration suppression technologies, and cross-disciplinary frameworks will be emphasized to enhance system robustness and cost-effectiveness under extreme climates, supporting the global scaling of PV deployment.
Co-Authors Abshar, Ulil Fan Yang Hu, Jiashun Mahmudah, Sarah Hajar Saehudin, Akhmad Satori, Achmad Shi, Mingjie Tao Sun Waki Ats Tsaqofi