Role of Correlation among Physical Factors in Probabilistic Simulation of Emissions of Volatile Organic Compounds from Floating Storage and Offloading Vent Stack

Q3 Environmental Science Environment and Natural Resources Journal Pub Date : 2024-07-01 DOI:10.32526/ennrj/22/20230339
Chalee Seekramon, C. Jarusutthirak, Pawee Klongvessa
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Abstract

This research investigated the roles of correlations among physical factors in the probabilistic simulation of volatile organic compounds (VOCs) emitted from a marine vessel (known as floating storage and offloading, FSO), located in the Gulf of Thailand. The physical factors in this study were wave height, ambient temperature, storage temperature, storage quantity, Reid vapor pressure, and the daily incoming rate. These physical factors were transformed into normally distributed data and a second-order multiple linear regression (MLR) with interaction effects, that were then used to determine the relationship between the transformed physical factors and the VOC venting volume from the FSO. The dataset of relevant predictors (transformed physical factors and interactions) that provided the maximum adjusted coefficient of determination was chosen for inclusion in the MLR. After that, two datasets of 1,000 venting volumes (one with and one without correlations among physical factors) were simulated. In the simulation, 1,000 datasets of six physical factors were generated according to observed averages and standard deviations. Cholesky randomization was used to generate the correlated physical factors for the simulation with correlation among physical factors. The averages of VOC venting volumes calculated from the generated physical factors when correlations among physical factors were and were not applied were 211,610 and 210,906 ft3, respectively (observed average was 210,984 ft3), with standard deviations of 38,828 and 40,787 ft3, respectively (observed standard deviation was 67,961 ft3), and skewness values of 0.74 and 0.51, respectively (observed skewness was 0.71). Therefore, correlation among the physical factors improved the skewness and provided better simulation results for VOC emission.
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物理因素之间的相关性在浮式储油卸油槽挥发性有机化合物排放概率模拟中的作用
本研究调查了在对位于泰国湾的一艘海洋船舶(称为浮式储油卸油船,FSO)排放的挥发性有机化合物(VOCs)进行概率模拟时各物理因素之间相关性的作用。本研究中的物理因素包括波浪高度、环境温度、存储温度、存储量、里德蒸汽压和日进水率。这些物理因素被转化为正态分布数据和具有交互效应的二阶多元线性回归(MLR),然后用于确定转化后的物理因素与 FSO 挥发性有机化合物排放量之间的关系。选择提供最大调整决定系数的相关预测因子数据集(转换物理因子和交互作用)纳入多元线性回归。之后,模拟了两个包含 1,000 个排气量的数据集(一个包含物理因素之间的相关性,另一个不包含物理因素之间的相关性)。在模拟过程中,根据观测到的平均值和标准偏差生成了 1000 个六种物理因子的数据集。在有物理因子相关性的模拟中,使用 Cholesky 随机化方法生成相关物理因子。根据生成的物理因子计算出的 VOC 排放量,在应用和不应用物理因子间相关性时的平均值分别为 211,610 和 210,906 立方英尺(观测平均值为 210,984 立方英尺),标准偏差分别为 38,828 和 40,787 立方英尺(观测标准偏差为 67,961 立方英尺),偏度值分别为 0.74 和 0.51(观测偏度为 0.71)。因此,物理因素之间的相关性改善了偏斜度,为 VOC 排放提供了更好的模拟结果。
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来源期刊
Environment and Natural Resources Journal
Environment and Natural Resources Journal Environmental Science-Environmental Science (all)
CiteScore
1.90
自引率
0.00%
发文量
49
审稿时长
8 weeks
期刊介绍: The Environment and Natural Resources Journal is a peer-reviewed journal, which provides insight scientific knowledge into the diverse dimensions of integrated environmental and natural resource management. The journal aims to provide a platform for exchange and distribution of the knowledge and cutting-edge research in the fields of environmental science and natural resource management to academicians, scientists and researchers. The journal accepts a varied array of manuscripts on all aspects of environmental science and natural resource management. The journal scope covers the integration of multidisciplinary sciences for prevention, control, treatment, environmental clean-up and restoration. The study of the existing or emerging problems of environment and natural resources in the region of Southeast Asia and the creation of novel knowledge and/or recommendations of mitigation measures for sustainable development policies are emphasized. The subject areas are diverse, but specific topics of interest include: -Biodiversity -Climate change -Detection and monitoring of polluted sources e.g., industry, mining -Disaster e.g., forest fire, flooding, earthquake, tsunami, or tidal wave -Ecological/Environmental modelling -Emerging contaminants/hazardous wastes investigation and remediation -Environmental dynamics e.g., coastal erosion, sea level rise -Environmental assessment tools, policy and management e.g., GIS, remote sensing, Environmental -Management System (EMS) -Environmental pollution and other novel solutions to pollution -Remediation technology of contaminated environments -Transboundary pollution -Waste and wastewater treatments and disposal technology
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