본 연구에서는 충청북도 충주시를 대상으로 폭염시 토지이용유형별 보행공간의 기상특성과 공기이온 특성을 측정 및 분석하였다. 연구대상지 보행공간의 토지이용유형 구분은 지적편집도를 이용하여 대상지를 크게 Green Area, Residential Area, Commercial Area으로 실시하였다. 측정지점은 약 4.1km, 44개 지점으로 측정지점을 선정하여 외곽지 역 관통도로 보행공간 Green Area 12개 지점, Residential Area 14개 지점, Commercial Area 18개 지점으로 구분하여 측정하였다. 또한 폭염시 토지이용유형별 보행공간의 기온, 상대습도, 일사량, 순복사량 등의 기상요소가 음이온 발생량, 양이온 발생량에 미치는 영향을 분석하여 이온지수를 산출하였다. 폭염시 토지이용유형별 보행공간의 공기이온 특성 비교결과 평균 양이온 발생량은 Commercial Area(700.73ea/cm3) > Residential Area(600.76ea/cm3) > Green Area(589.73ea/cm3)로 분석되었다. 평균 음이온 발생량은 Green Area(663.95ea/cm3) > Residential Area(628.48ea/cm3) > Commercial Area(527.48ea/cm3) 로 분석되었다. 평균 이온지수는 Green Area(1.13) > Residential Area(1.04) > Commercial Area(0.75)로 분석되었다. 본 연구는 폭염시 토지이용유형별 보행공간에 따른 기상특성, 양이온 발생량과 음이온 발생량 현황을 확인할 수 있었으며, 토지이용유형별 보행공간의 이온지수의 차이를 확인할 수 있었다. 그러나 이동측정에 따른 토지이용유형별 정확한 비교 부족과 도로 폭 변화에 대한 정량적 특성 비교가 부족한 한계점이 존재하였 다. 따라서 도로 특성을 고려한 지속적인 연구가 이루어져야할 것으로 판단되었다.
Daegu City has the most number of heat waves every year in the last 10 years among 7 metropolitan cities in Korea. As the slang, such as ‘Daefrica(Daegu + Africa)’ shown, Daegu City is recognized as a high temperature region in the summer. The purpose of this study is to understand the perception of urban green space as a mediator for heat wave mitigation for Daegu citizens. First, about 93.3% of the respondents perceived what the heat was. The most frequent cause of the increase in the number of heat waves was the increase in energy use (34.9%), ‘indiscriminate development’ (24.9%), ‘automobile and traffic increase’ (17.9%), ‘greenery reduction’ (12.6% ) were the most common cause. Second, 87.1% of respondents had positive perception about the mitigation effect on the effect of urban green space as a medium to mitigate the heat. In addition, 26.7% of respondents answered that they are very effective in mitigating the effect of the heat of urban greenery, and 95.1% of them responded more than ‘normal’. Third, as a result of examining the priorities of short and long-term heat-related policies, the short term was the highest (37.5%) in responding to ‘electricity tariff realization’ because of the high dependence on air conditioners. In contrast to the short-term perspective, the long-term policy for mitigating the heat wave was overwhelmingly supported by ‘expansion of urban green areas’ (50.7%). This is a result of confirming Daegu citizens’ consciousness which is highly evaluating the effect of urban green space as a medium for mitigating the heat. Fourth, the importance and performance of ‘urban green space type’ for mitigation of the heat wave were examined. The type of urban green space belonging to the phenomena maintenance area (quadrant Ⅰ), which both had high importance and performance, was classified as ‘neighborhood park’. In addition, it was surveyed as ‘Ssamji(mini) Park’ as the type of urban greenery in the concentrated improvement area (quadrant Ⅱ) where the importance is high but the performance is low. We believe that the value of urban green areas for mitigating the heat waves has been fully recognized through the recognition of Daegu citizens. We hope that the results of this study will be used as basic data for future Daegu city heat and urban greening policy.
In this paper, we study the effect of cooling dehumidification process and wave heat exchanger on the reduction of white smoke and the efficiency by combination of heat exchanger with numerical analysis method. For this purpose, four types of heat exchange systems combined with 5-stage wave heat exchangers were selected to analyze the heat transfer characteristics of the heat exchange system in the winter condition. As the high temperature exhaust air flowed from HX 1 to HX 5, the final outlet temperatures of the four heat exchange systems(Cases 1, 2, 3 and 4) gradually decreased. The heat transfer rate and dehumidification amount were the best in Case 1 and Case 3, respectively. It can be seen that the heat flow in the heat exchanger is different according to the combination of the four kinds of wave heat exchanger and the fluid flow.
In this study, the performance of a small - sized wave heat exchanger to be applied to the white smoke reduction system was experimentally confirmed. The heat transfer rate, drain and pressure drop were measured according to the air flow rate, water flow rate and relative humidity change of the wave heat exchanger for two kinds of pitch numbers. A constant temperature and humidity calorimeter and a constant temperature water bath were used to measure the performance of the wave heat exchanger. The heat transfer rate and drain increased gradually with changes of water flow rate. Case 2 showed more than 50% higher heat transfer rate and drain than Case 1. The increase of air heat transfer rate and drain according to air flow rate was greatly increased when the number of pitches was the same or increased, unlike the result of water flow rate change. In the temperature visualization using a thermal imaging camera, it can be seen that as the water flow rate and the number of pitches increase, the heat transfer becomes more effective in Case 2.
In this study, the heat transfer characteristics of pilot wave heat exchanger for white smoke reduction system was investigated. The performance of the wave and honeycomb heat exchanger combined with the first stage, second stage and third stage was tested using a calorimeter. Air and water inlet/outlet temperature and flow rate, pressure drop and dehumidification amount were measured to compare the heat transfer performance according to the type and the combination of heat exchanger. The heat transfer rate and dehumidification amount of the wave heat exchanger were higher than that of the honeycomb heat exchanger, and the pressure drop was low. As the stage increased, the heat transfer rate and the increase of the dehumidification amount were more pronounced, and the pressure drop linearly increased. The wave heat exchanger had a lower flow resistance than the honeycomb heat exchanger with the honeycomb structure and had a higher heat transfer effect due to the convection, so the water outlet temperature was higher in the wave heat exchanger.
본 연구에서는 2016년 8월 해역(서해, 남해, 동해)별로 기온에 따른 수온의 반응 및 지연시간을 연구하였다. 사용된 1시간 간 격의 자료는 국립수산과학원에서 제공하는 8개 지점 해역별 수온자료와 수온관측소 인근 8개 지점 기상청 AWS 기온자료를 이용하였 다. 내삽법을 이용하여 관측되지 못한 자료값을 계산하였고, FIR Filter를 이용하여 조류 및 일변화 영향을 제거하여 자료의 주기성을 파 악하였다. 남해 2 지점은 기온과 수온이 유사한 주기성을 가졌으며, 0.8의 높은 상관계수와 약 50시간의 지연시간을 나타냈다. 서해 4 지점은 얕은 수심과 조석차로 인해 기온변화에 따른 수온의 지연시간이 약 12시간으로 반응시간이 다른 해역에 비해 빨랐다. 동해는 해안지형에 따른 환경적 요인과 깊은 수심으로 인해 기온과 수온의 상관성을 보이지 않았다. 본 연구를 통해 AT-SST 간의 지연시간을 파악함으로써 양식생물의 피해를 최소화 하는데 기여할 것이고, 수산업에서의 폭염 피해에 대한 신속한 대응 체계가 마련될 것이라 기 대한다.
In this study, the heat flow characteristics of wave heat exchanger was investigated by being applied to the white smoke reduction system. Through numerical analysis, the heat transfer and flow characteristics of the wave heat exchanger with the change of inlet condition of air-side and water-side were analyzed. To investigate the temperature, the absolute humidity, heat transfer rate, pressure drop and turbulence characteristics of the wave heat exchanger, the simulation analysis was conducted by using the commercial computational fluid dynamics software (Solidworks Flow Simulation) under uniform flow conditions. As the inflow rate of air decreased and the inflow temperature of water increased, the heat transfer coefficient of the wave heat exchanger decreased. When the experimental conditions of water-side were the same, the air outlet temperature and absolute humidity of the wave heat exchanger increased with increasing inflow rate of air. To reduce the white smoke, the air outlet temperature and absolute humidity of the wave heat exchanger must be reduced. Therefore, the lower the air velocity and the water inflow temperature into the wave heat exchanger, the more effective it is.
Nondestructive testing is a method of inspecting particular target objects without destructing them in industrial sites. Infrared thermal imaging is one of the nondestructive testing techniques. Among them, lock-in infrared thermography technique is a technique to detect a defect by generating a temperature difference of an object using periodic heat waves. This paper deals with the development of lock-in infrared thermography technique by using numerical analysis model for SM45C metal specimens. As a result, the appropriate frequency was determined for defect detection in SM45C metal specimen by using the established thermal behavior mechanism by periodic heat wave.
The objective of this study was to determine the effect of drinking water containing trimethyl glycine or ascorbic acid on growth performance and blood parameter profiles of duck exposed to scorching heat stress. A total of 480 ducks were randomly assigned to the following eight experiment groups for 42 days : control group C with general water, treatment group 1 (T1) with drinking water containing 100 ppm ascorbic acid, treatment group 2 (T2) with drinking water containing 200 ppm ascorbic acid, treatment group 3 (T3) with drinking water containing 300 ppm ascorbic acid, treatment group 4 (T4) with drinking water containing 400 ppm trimethyl glycine, treatment group 5 (T5) with drinking water containing 800 ppm trimethyl glycine, treatment group 6 (T6) with drinking water containing 1,200 ppm trimethyl glycine, treatment group 7 (T7) with electrolytes of KCl (0.5%) + NaHCO3 (1.0%)+NaCl (0.5%). Our results revealed that the body weights and feed intakes of treatment groups, especially T3 and T6, were increased compared to the control group, where as the feed conversion ratios of treatment groups were decreased (p<0.05). Blood levels of total cholesterol, triglyceride, LDL-C, glucose, AST, ALT and pH in treatment groups were lower compared to those in the control group (p<0.05). Blood levels of red blood cell, platelets profiles, electrolyte and gas in treatment groups were higher compared to those of the control group (p<0.05).
The effects of different feeding times, using a diet containing 800 ppm betaine, on production, blood profile, and the short-chain fatty acid (SCFA), was investigated using 240 Cherry Valley (Anas platyrhynchos) meat ducks exposed to a scorching heat wave. The animals were randomly assigned to four groups, each of which was replicated three times with twenty ducks per replicate. The experimental period was 42 days for each group. Four groups were assigned into C (heat wave control group without betaine), T1 (ad libitum group fed a diet containing 800 ppm betaine), T2 (diet-restricted group fed twice daily between 05:00-10:00 and 17:00-20:00, using a diet containing 800 ppm betaine), and T3 (night-restricted group, fed from 17:00-10:00, with a diet containing 800 ppm betaine). At 42 days, body weight increased in order of T2, T1, T3 compared to the heat wave control group although. However, these differences were not found between the groups of T1 and T3. The heat wave control group, provided an ad libitum diet without betaine (C), showed an elevated feed conversion ratio compared to the groups fed a diet containing betaine. However, these differences were not found between the groups of T1, T2 and T3. RBC and platelet profiles except for PLT and MPV showed statistically significant differences between study groups fed a diet containing betaine. T2 presented significantly higher blood electrolytes Na+ and Cl- than the other groups. T2 also showed a blood gas level that was generally higher than the other groups. Total SCFA, acetic acid and propionic acid concentration has been the increasing trend in T2, but butyric acid, isobutyric acid and valeric acid concentration has been the decreasing trend in T2 compared to the other groups. It is concluded that the feeding-restricted group, fed two times daily between 05:00-10:00 and 17:00-20:00, with a diet containing 800 ppm betaine may improve growth performance in meat ducks exposed to a scorching heat wave.
The characteristics of time changes in air temperature, DI (discomfort index) and WBGT (wet-bulb globe temperature) were investigated for inland city (daegu) and coastal city (pohang) of Gyeongbuk Province during the 2018 consecutive heat wave season. The time when the temperature dropped below 33℃ was around 19h in both regions. As such, the two regions were similar with respect to the time up to which the heatwave warning levels continued. However, the discomfort index (DI) was higher than 27 in Pohang. Most people feel unpleasant when an discomfort index of 27 or higher appears. The results indicated that Korea's night-time thermal environment during the summers is particularly poor in the southern coastal areas. WBGT began at 09:00 and lasted until 21:00, with a score of 31 or higher; this score, in principle, corresponded with the duration of outdoor activity in both regions. Therefore, it was found that outdoor work was at a level where all day long had to be stopped in both areas during the heat wave. Although time changes in temperature and WBGT were similar in both regions, Discomfort Index (DI) differed significantly. The difference refers to the fact that Pohang is strongly affected by the high heat capacity effect and the supply of water vapor from the sea.
This study is to identify the heat vulnerability area as represented by heat risk factors which could be attributable to heat-related deaths. The heat risk factors were temperature, Older Adults(OA), Economic Disadvantage(ED), Accessibility of Medical Services(AMS), The population Single Person Households(SPH). The factors are follow as; the temperature means to the number of days for decades average daily maximum temperature above 31℃, the Older Adults means to population ages 65 and above, furthermore, the Economic Disadvantage means to the population of Basic Livelihood Security Recipients(BLSR), the Accessibility of Medical Services(AMS) means to 5 minutes away from emergency medical services. The results of the analysis are showed that the top-level of temperature vulnerability areas is Dong, the top-level of vulnerability OA areas is Eup, the top-level of AMS vulnerability is Eup. Moreover, the top-level of vulnerability ED area appears in the Eup and Dong. The result of analysing relative importance to each element, most of the Eup were vulnerable to heat. Since, there are many vulnerable groups such as Economic Disadvantage, Older Adults in the Eup. We can be figured out estimated the number of heat-related deaths was high in the Eup and Dong by the data of emergency activation in the Chungcheongnam-do Fire Department. Therefore, the result of this study could be reasonable.
We compared the spatial distribution of several heat stress indices (the Wet-Bulb Globe Temperature(WBGT) index, Environmental Stress Index (ESI), and Modified Discomfort Index(MDI)) for the heat wave of June 6 ~August 26, 2016, in Daegu. We calculated the heat stress indices using data from the high density urban climate observation network in Daegu. The observation system was established in February. 2013. We used data from a total of 38 air temperature observation points (23 thermometers and 18 automatic weather stations). The values of the heat stress indices indicated that the danger level was very high from 0900-2000h in downtown Daegu. The daily maximum value of the WBGT was greater than or equal to 35℃ The differences in the heat stress indices from downtown and rural areas were higher in the daytime than at nighttime. The maximum difference was about 4 before and after 1400h, and the time variations of the heat stress indices corresponded well. Thus, we were able to confirm that the ESI and MDI can be substituted with the WBGT index.
This study evaporative cooling system a heat wave climate change and reduction of the inside and outside thermal environment change research. Measurement items included micro meteorological phenomena and measured comfort indices. A micro meteorograph of temperature, relative humidity, surface temperature, and the comfort indices of WBGT, UTCI, and PMV were measured. The difference in inside and outside temperatures were compared for different land types, with the largest difference found in Type A (4.81℃), followed by Type B (4.40℃ ) and Type C (3.12℃). Relative humidity was about 10.43% higher inside due to water injection by the evaporative cooling system. Surface temperature was inside about 6.60℃ higher than the outside all types. WBGT were Type A (3.50℃) > Type B (2.71℃) > Type C (1.88℃). UTCI was low heat stress inside than outside all types. PMV was analysed Type C for inside predicted percentage of dissatisfied 75%, other types was percentage of dissatisfied 100% by inside and outside. Correlation analysis between land cover type and temperature, surface temperature, pmv, utci. T-test analysed inside and outside temperature difference was significant in all types of land.