张波,徐敏,陈云霞,罗朝旺,窦智超,樊常林,马凯军,邓培昌.湛江临海区域氯离子沉降速率对比研究[J].装备环境工程,2021,18(1):129-133. ZHANG Bo,XU Min,CHEN Yun-xia,LUO Chao-wang,DOU Zhi-chao,FAN Chang-lin,MA Kai-jun,DENG Pei-chang.Comparative Study of Cl‒ Sedimentation Rates in Coastal Areas of Zhanjiang[J].Equipment Environmental Engineering,2021,18(1):129-133.
湛江临海区域氯离子沉降速率对比研究
Comparative Study of Cl‒ Sedimentation Rates in Coastal Areas of Zhanjiang
投稿时间:2020-09-28  修订日期:2020-10-30
DOI:10.7643/issn.1672-9242.2021.01.019
中文关键词:  氯离子  沉降速率  热带海洋大气环境  腐蚀中图分类号:TG172 文献标识码:A 文章编号:1672-9242(2021)01-0129-05
英文关键词:chloride ion  sedimentation rates  tropical marine environment  corrosion
基金项目:国家自然科学基金(51801033);中国石化管道储运有限公司技术服务项目(36150038-19-ZC0609-0017)
作者单位
张波 国家管网集团东部原油储运有限公司湛江输油处,广东 湛江 524043 
徐敏 国家管网集团东部原油储运有限公司湛江输油处,广东 湛江 524043 
陈云霞 国家管网集团东部原油储运有限公司湛江输油处,广东 湛江 524043 
罗朝旺 国家管网集团东部原油储运有限公司湛江输油处,广东 湛江 524043 
窦智超 国家管网集团东部原油储运有限公司湛江输油处,广东 湛江 524043 
樊常林 国家管网集团东部原油储运有限公司湛江输油处,广东 湛江 524043 
马凯军 国家管网集团东部原油储运有限公司科技研发中心,江苏 徐州 221008 
邓培昌 广东海洋大学 化学与环境学院,广东 湛江 524088 
AuthorInstitution
ZHANG Bo Zhanjiang Oil Transportation Department, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Zhanjiang 524043, China 
XU Min Zhanjiang Oil Transportation Department, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Zhanjiang 524043, China 
CHEN Yun-xia Zhanjiang Oil Transportation Department, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Zhanjiang 524043, China 
LUO Chao-wang Zhanjiang Oil Transportation Department, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Zhanjiang 524043, China 
DOU Zhi-chao Zhanjiang Oil Transportation Department, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Zhanjiang 524043, China 
FAN Chang-lin Zhanjiang Oil Transportation Department, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Zhanjiang 524043, China 
MA Kai-jun Technical R&D Center, Eastern Crude Oil Storage and Transportation Co., Ltd., National Petroleum and Natural Gas Pipe Network Group Co., Ltd., Xuzhou 221008, China 
DENG Pei-chang College of Chemistry and Environment, Guangdong Ocean University, Zhanjiang 524088, China 
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中文摘要:
      目的 研究热带海洋大气环境中SVCl-的影响因素及变化规律。方法 在湛江市临海陆地区域,通过湿烛法采集SVCl-样品,利用Cl选择电极分析样品Cl含量,获得SVCl-。分析热带海洋大气环境SVCl-与地理位置、温度、湿度等环境因素的相关性。结果 地理位置对SVCl-影响显著,在风大、浪高海区的临海区域,SVCl-是风小、浪平的湾内临海区域的1~7倍。随距海距离的增加,SVCl-逐渐下降,距海距离50 m处的SVCl-是距海距离200 m处的7倍左右。温湿度对SVCl- 影响显著,在低温干燥的冬季,温度升高,SVCl-增加;湿度升高,SVCl-降低。在温度逐渐升高、湿度逐渐增大的春季,在距海距离150 m内,SVCl-的变化幅度较小,且与温度、湿度变化的相关性不大;在距海距离200 m处,SVCl-随温度升高、湿度增大而增大。结论 相距较近但处于不同临海位置区域的氯离子沉降速率有可能相差较大,氯离子沉降速率受临近海区海况条件,盛行风向等因素影响。
英文摘要:
      To study the influencing factors and change rule of SVCl -in tropical marine environment. SVCl- samples are collected by the wet candle method in the coastal areas of Zhanjiang. SVCl- is gained from Cl‒ content by ion-selective electrode analysis. The correlation isanalyzed between SVCl- in tropical marine environment and the environmental factors (such as geographical location, temperature, and humidity). Geographical location has obvious influence on SVCl-. SVCl- of the coastal areas with wind and waves is about 1~7 times that of the coastal areas without wind and waves, and SVCl- decreases with the increasing distance from the coastline (SVCl- of the location 50 m away from the coastline is 7 times that of the location 200 m away from the coastline. Temperature and humidity have obvious influence on SVCl-, too:SVCl- increases with the increasing temperature and the decreasing humidity in cold and dry winter; in spring when temperature and humidity increase, within 150 m away from the coastline, the correlation is not significantly between SVCl- and temperature and humidity, and SVCl- changes little, but SVCl- increases with the increasing temperature and humidity within 200 m away from the coastline. SVCl-s of the locations that are close to each other and face different sea areas could be quite different. SVCl-s sedimentation rates are affected by the adjacent sea state and the direction of the prevailing winds.
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