CALCULATION OF THERMAL RADIATION FOR THE DESIGN OF PROTECTION AND FIRE FIGHTING SYSTEMS FOR LPG STORAGE PARKS

Brazilian Journal of Petroleum and Gas Pub Date : 2020-05-06 DOI:10.5419/bjpg2020-0004

R. M. S. T. Martins, R. F. Vianna

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引用次数: 1

Abstract

Liquefied petroleum gas (LPG) is industrially stored in spherical or cylindrical vessels. These follow strict construction standards to prevent accidents that may be caused by fire or explosions in neighboring equipment. The heat transfer by thermal radiation is LPG’s main fire propagator. However, even with standards in place, design and operational failures can still occur. In this context, the installation of firefighting systems to avert major disasters becomes critical. The design of these systems must follow national and international standards and codes, which indicate prescriptive criteria for the selection of equipment to be cooled in case of fire in a LPG storage park. The present paper presents a case study for a LPG spherical vessel storage park. It uses the ALOHA simulator to calculate the action radius of thermal radiation and subsequent selection of spheres to be cooled. It also compares standards adopted in Brazil to international standards, demonstrating that Brazilian standards are more conservative and obsolete in regards to the advances in Fire Engineering. The work has the potential to be used as the basis for reviewing Brazilian’s standards.

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液化石油气储存库防护及消防系统设计的热辐射计算

工业上，液化石油气(LPG)储存在球形或圆柱形容器中。这些都遵循严格的施工标准，以防止附近设备发生火灾或爆炸事故。热辐射传热是液化石油气主要的火灾传播方式。然而，即使有了适当的标准，设计和操作失败仍然可能发生。在这种情况下，安装消防系统以避免重大灾害变得至关重要。这些系统的设计必须遵循国家和国际标准和规范，这些标准和规范规定了在液化石油气储存园区发生火灾时选择冷却设备的规定标准。本文介绍了一个液化石油气球形容器储存库的案例研究。它使用ALOHA模拟器来计算热辐射的作用半径，并随后选择待冷却的球体。它还将巴西采用的标准与国际标准进行了比较，表明巴西的标准在消防工程方面更加保守和过时。这项工作有可能被用作审查巴西标准的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Brazilian Journal of Petroleum and Gas

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