Research Profile

Virda Nur Lu'lu

  • M.Sc. in Chemical Engineering
  • Institut Teknologi Bandung (ITB)

This page presents the academic profile and research context of the author, with a focus on explosion consequence modelling, TNT-equivalent methods, and web-based engineering tools for rapid preliminary safety assessment.

Research Specialization

Focused on explosion consequence modelling using TNT-equivalent methodologies. Comparative benchmarking of empirical correlations, including Crowl and Louvar, Díaz-Alonso, and Sadovski, supports the development of lightweight web-based tools for preliminary industrial safety assessment.

The Xplosion platform serves as the implementation layer of this work by translating comparative modelling logic into a more accessible engineering interface for academic and early-stage consequence screening.

Research Identity

This profile consolidates the author identity signals that are directly connected to the research archive and publication output.

Selected Publication

The latest linked archive article associated with this profile is presented below to strengthen the connection between the author page and the research output.

Comparative Simulation and Modeling of Hydrogen Explosion Consequences based on TNT Equivalent

  • Authors: Virda Nur Lu'lu; Hary Devianto; Pramujo Widiatmoko
  • Published: 2026-02-23T00:00:00+07:00
  • Archive: Xplosion Research Archive, Volume 1, Issue 1
  • Keywords: Hydrogen explosion, TNT equivalent, blast consequence screening, peak side-on overpressure

The article develops a web-based TNT-equivalent framework for hydrogen explosion consequence screening and compares Crowl and Louvar, Alonso, and Sadovski correlations under harmonized assumptions.

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Research Context

The broader study behind this profile concerns comparative simulation and modelling of explosion consequences based on TNT-equivalent approaches. The work emphasizes consequence-distance interpretation, model benchmarking, and transparent digital implementation for academic use and preliminary engineering decision support.

Contact and Research Links

This page is intended for academic identity, research communication, and navigation toward the related Xplosion platform and publication archive.