Journal of Spatial Analysis Environmental Hazards
تحلیل فضایی مخاطرات محیطی
Journal of Spatial Analysis Environmental Hazards
Literature & Humanities
http://jsaeh.khu.ac.ir
1
admin
2423-7892
2588-5146
10.61186/jsaeh
fa
jalali
1395
1
1
gregorian
2016
4
1
3
1
online
1
fulltext
fa
بررسی آلودگی هوای شهر تهران به روش وارونگی بحرانی هافتر
Evaluation of air pollution in Tehran city by Hefter's critical Inversion method
تخصصي
Special
پژوهشي
Research
<p dir="RTL" style="margin-right: -8.35pt; text-align: justify;"><span style="font-size:16px;"><span style="font-family: nasimyw;"><strong>هدف اساسی این تحقیق بررسی ارتفاع لایه آمیخته با استفاده از روش وارونگی بحرانی و نقش آن در آلودگی شهر تهران می باشد. در این راستا از دادههای سال 2013 مربوط به پیمایش قائم جو برای ایستگاه مهرآباد از پایگاه دادههای اقلیمی </strong><span dir="LTR">Wyoming</span><strong> استفاده گردید. همچنین دادههای ساعتی عناصر آلاینده هوا شامل آلایندههای گازی </strong><span dir="LTR">CO, N2O,O3,SO2</span><strong> و ذرات معلق (</strong><span dir="LTR">PM10</span><strong>) از مرکز کنترل کیفیت هوای تهران(</strong><span dir="LTR">AQCC</span><strong>) برای ایستگاههای(اقدسیه، ژئوفیزیک، پونک، شهر ری و منطقه 11) دریافت و اقدام به جداسازی روزهایی با غلظت آلودگی بالا و روزهایی با شرایط خوب بگونهای که در تمامی ایستگاههای مورد بررسی یکسان باشند، گردید. با ترسیم و تحلیل گرافهای </strong><span dir="LTR">Skew-T</span><strong> و براساس روش وارونگی بحرانی </strong><span dir="LTR">Heffter</span><strong>، از میان 100 روز همراه با وارونگی، 30 روز بحرانی تشخیص داده شد که از این میان 4 روز در دمای پتانسیل، یعنی 2 روز آلوده (6 فوریه و 16 اوت) و 2 روز پاک(9 فوریه و 5 ژوئن) انتخاب گردید. </strong><strong>بر اساس </strong><strong>نتایج </strong><strong>پیمایشهای قائم جوی</strong> <strong>در نمونه های آلوده، وارونگیها در ساعات صبحگاهی از نوع تابشی بوده که مشخصه بارز آن ها، ضخامت کم و خیزآهنگ زیاد دمای پتانسیل میباشد. در حالی که در ساعات ظهر وارونگیها ناشی از فرونشینی هوا بوده و مهمترین ویژگی آنها، ضخامت زیاد و خیز آهنگ کم دمای پتانسیل میباشد. همچنین مشاهده گردید که در نمونه های پاک(فصل گرم و سرد سال) وارونگی ها در ساعات صبح و بعد از ظهر از نوع فرونشینی و شدت خیزآهنگ دمای پتانسیل مساوی بوده است. در نمونه های فصل گرم سال از نوع پاک، وارونگی مشاهده شده در ساعت صبحگاهی از نوع فرونشینی و درساعت بعدازظهر هیچ نوع وارونگی ای مشاهده نشده است.</strong></span></span></p>
<p style="text-align: justify;"><span style="font-family:times new roman;"><span style="font-size: 16px;">In issues related to air pollution, the thickness of the boundary layer is known as the depth of the mixed layer because the pollution on the ground surface is mixed in this entire layer through turbulence processes. In most cases, the boundary of the area is clearly visible on big industrial cities. The depth of the mixed layer has an important effect in the concentration of air pollution which is dependent on the intensity and duration of solar radiation and wind speed. Usually after 2 to 3 hours from the time of maximum solar radiation, air temperature near the earth's surface reaches its maximum value. At this time convection of heat is formed in the air near the earth surface and transfers the heat from the surface to higher altitudes. These vertical movements will cause atmospheric turbulence and increase in instability. This is when the growth of the mixed layer reaches to its highest level. After sunset, night temperature inversion occurs near the surface. This temperature inversion is due to the rapid cooling of the Earth's surface. In such condition, the cold air layer is near the earth's surface and the warm air layer sits on top of it and air is in a stable condition. As a result, the accumulation of contamination, if there are sources of pollutants, will increase in the earth's near-surface layer. If the conditions remain steady during the day, the mixed layer will not have much growth and as a result, contamination in the shallow layer near the surface of the Earth reduces solar radiation.</span></span></p>
<p style="text-align: justify;"><span style="font-family:times new roman;"><span style="font-size: 16px;">Each year, thousands of gaseous pollutants and particulate matter are emitted in the metropolitan area of Tehran and due to the geographical and climatic conditions of Tehran, temperature inversion phenomenon is not something unexpected. By formation of the inversion layer, these pollutants will remain near the earth's surface for a long time which in turn will be the cause of a lot of heart and respiratory problems. Therefore, identifying the characteristics of this layer on polluted days is of particular importance to the health of the residents of this city.</span></span></p>
<p style="text-align: justify;"><span style="font-family:times new roman;"><span style="font-size: 16px;">In this research, the study area is Tehran which is in the foothills of the southern Alborz and between longitudes 51 ° 2 'to 51 degrees 36' east and latitude 35 degrees 34 minutes and 35 degrees 50 minutes northern. The height of the northernmost point of this city is 1800 and up to 1200 meters in the center and 1050 meters in the south.</span></span></p>
<p style="text-align: justify;"><span style="font-family:times new roman;"><span style="font-size: 16px;">To conduct this research, inversion data including temperature, wind, atmospheric pressure and humidity and vertical navigation radiosonde data at the Mehrabad weather station from January to 29 December 2013, were taken from the Meteorological Organization of country. Then the statistics of daily vertical scroll of atmosphere above the Mehrabad synoptic station was received from the University of Wyoming. Also, the hourly data of air pollutants including gaseous pollutants CO, N2O, O3, SO2 and particulate matter (PM10) were prepared from the air quality control center (AQCC) for the stations Aghdasiyeh, Geophysics, Poonak, Rey and District 11.</span></span></p>
<p style="text-align: justify;"></p>
<p style="text-align: justify;"><span style="font-family:times new roman;"><span style="font-size: 16px;">After receiving information about the vertical scroll of the atmosphere in Mehrabad station, in order to have a closer examination of the vertical profiles of potential temperature changes in the lower atmosphere, using daily data from the radiosonde to obtain potential temperature changes in height were measured. Then, in order to identify the days with high pollution levels (the unhealthy condition for sensitive groups) and days with good conditions, so that all stations under study were the same, based on a standard index of air pollution Table 1 was developed. In the end, 4 days with critical inversion of potential temperature, including two polluted days (February 6th and August 16th) and two clean days (9 February and 5 June) were detected. Then according to the proposed method of Hefter, the approximate height of the boundary layer was calculated for these 4 days.</span></span></p>
<p style="text-align: justify;"></p>
<p style="text-align: justify;"><span style="font-family:times new roman;"><span style="font-size: 16px;">In this study, it was observed that the boundary layer height in contaminated cold season of the year reached 1,200 meters in the morning hours while in the afternoon in the cold samples, it grew to 1900 meters. In the warmer months based on the height of critical inversion layer in the selected days it reached more than 6,000 meters. In pure samples of warm and cold seasons, the boundary layer height had significant growth to the extent that in the cold sample of the year it reached to 2,100 meters in the morning and 2,600 meters in the afternoon. On June 5, which is intended to represent the clean and pure heating season, boundary layer height was of 5300 meters in the morning hours which shows a 4,000-meters increase in comparison to its polluted counterpart. The point to be noted is that since the active track of potential temperature can be considered as a measure of air stability, in the critical inversion, for the case of polluted samples of morning hours that were irradiated with inversion, active track of the potential temperature was very high in them. Thus on days with radiated inversion (polluted days) we can say that border of boundary layer was based on the inverted layer. Also the methods used in these types of inversions are more efficient for the determining height of the boundary layer.</span></span></p>
آلودگی هوا, وارونگی دمایی, دمای پتانسیل, لایه مرزی, نمودار Ske
Air pollution, inversion, potential temperature, boundary layer, chart Skew-T.
51
64
http://jsaeh.khu.ac.ir/browse.php?a_code=A-10-3-40&slc_lang=fa&sid=1
mostafa
karampour
مصطفی
کرمپور
10031947532846009127
10031947532846009127
No
assistant prof. of climatology
mohammad
saligheh
محمد
سلیقه
10031947532846009128
10031947532846009128
No
Associate Profe of climatology
meysam
toulabi nejad
میثم
طولابی نژاد
10031947532846009129
10031947532846009129
No
PHD student of climatology
دانشجوی دکتری آب و هواشناسی
zahra
zarei choghabaki
زهرا
زارعی چغابلکی
zzarei29@yahoo.com
10031947532846009130
10031947532846009130
Yes
PHD student of climatology
دانشجوی دکتری اقلیم شناسی