Average Wind Research Articles

Impact of Model Resolution and Initial/Boundary Conditions in Forecasting Low-Level Atmospheric Fields over the Incheon International Airport

Abstract This study investigates the impact of initial conditions/boundary conditions (ICs/BCs) and horizontal resolutions on forecast for average weather conditions, focusing on low-level weather variables such as 2-m temperature (T2m), 2-m water vapor mixing ratio (Q2m), and 10-m wind speed (WS10). A Weather Research and Forecasting (WRF) Model is used for regional mesoscale model simulations and large-eddy simulations (LESs). The 6-h-interval forecast fields generated by the Global Forecast System of the National Centers for Environmental Prediction and the Korean Integrated Model of the Korea Meteorological Administration are utilized as ICs/BCs for the regional models. Numerical experiments are performed for 24 h starting at 0000 UTC on each day in April 2021 when the average monthly wind speed was strongest during 10 years (2011–20). A comparison of model simulations with observations obtained around the Yeongjong Island, where Incheon International Airport is situated, shows that the regional models capture the time series of T2m, Q2m, and WS10 more effectively than the global model forecasts. Moreover, the LES experiments with a 100-m horizontal grid spacing simulate higher Q2m and lower WS10 during the daytime compared to the 1-km WRF. This results in a deterioration of their time-series correlation with the observations. Meanwhile, the 100-m LES forecasts time series of T2m over ocean stations and Q2m over land stations, as well as probability density functions of low-level weather variables, more accurately than that of the 1-km WRF. Our study also emphasizes the need for caution when comparing high-resolution model results with observation values at specific stations due to the high spatial variability in low-level meteorological fields.

Equilibrium atmospheric boundary layer model for numerical simulation of urban wind environment

The numerical simulation of urban wind environments faces difficulties in capturing the turbulent characteristics due to the large computational domain. Traditional Reynolds-averaged methods (RANS) can effectively capture the average wind characteristics of urban areas. However, due to the significant dissipation and attenuation of turbulent energy in the downstream direction, this method fails to provide accurate turbulent characteristics after time-averaging processing. Therefore, in order to obtain a higher-precision turbulent wind field distribution within urban areas, this paper proposed a new numerical method named an equilibrium atmospheric boundary layer model (EABL) by modifying the control equation of the shear stress transport k–ω model. During the process, the equilibrium atmospheric boundary layer was achieved successfully, and the attenuation problem of the turbulent kinetic energy and dissipation rate during the computational fluid dynamics numerical simulation was resolved. Simultaneously, a wind tunnel experiment and six turbulence models [standard k–ε, realizable k–ε, renormalization group k–ε, large eddy simulation—narrowband synthesis random flow generator (LES-NSRFG) and LES vortex method and EABL] were employed to simulate the wind field characteristics in an actual residential area. The simulation results demonstrate that, relative to traditional RANS models, the EABL model enhances the simulation accuracy of turbulence characteristics by over two times. Furthermore, compared to LES models, the EABL model can reduce computational time by threefold.

Hair follicle punch grafts in hard-to-heal wounds: A monocenter study and patient survey.

Chronic wounds present a growing challenge in the aging population, resulting in an extended course of treatment and an increased influx of patients with recalcitrant wounds seeking admission to hospitals. Furthermore, the general trend in patient care is toward simple and inexpensive treatment methods, feasible in an outpatient setting with little material costs. This retrospective case study aims to elucidate the operative procedure and outcomes associated with hair follicle unit transplantation utilizing punch grafts from the scalp for the management of hard-to-heal wounds. A cohort of 28 patients, comprising 20 males and eight females, with a mean age of 72.61 years (range: 48-89) and an average wound area of 82.49 cm2, underwent dissection of punch grafts containing hair follicles (2-3 mm in diameter) from the scalp. Subsequently, these grafts were transplanted into the wound bed. The retrospective evaluation of ulcer healing encompassed photo documentation and clinical records, while patient satisfaction was assessed through structured questionnaires. In 78.6% (22) of the cases, a favorable impact on wound healing was observed, characterized by epithelization, and in 57.1% (16) of the patients, complete wound closure was achieved. With the exception of one donor site, all other sites healed without complications. The patient survey indicated that the majority of individuals subjected to the procedure did not perceive it as painful or time-consuming. Notably, 81% (17) of individuals expressed a willingness to undergo the treatment again. Even in challenging wound conditions, such as pyoderma gangrenosum, our method demonstrated a positive effect on wound healing. Within our cohort, the utilization of hair follicle units in the management of hard-to-heal wounds resulted in either complete or partial wound closure for the majority of patients, accompanied by minimal morbidity, reduced operation time, and a low incidence of complications and associated costs.

Gdansk Wound-QoL Questionnaire: Pilot Study on Health-Related Quality of Life of Patients with Chronic Ulcers with Emphasis on Professional Physician-Patient Relations.

Chronic wounds lower health-related quality of life (QoL), as they affect various aspects of life due to pain, odor, tedious treatment, and stigma from society. Implementing proper treatment, where patient is well informed and active is a key for best outcomes. The aim of the study was to evaluate health-related QoL among the patients with chronic ulcers, with the use of new scale Gdansk Wound QoL. We enrolled 108 patients who met the inclusion criteria. Before the education on day 0 patients were asked to fill in Gdansk Wound-QoL questionnaire, that was developed in cooperation between dermatologists, general and plastic surgeons, as well as wound nurses, as well as fill the follow-up Gdansk Would-QoL questionnaire on day 30, which was also the end of the study. Study participants (N = 108) were on average 76.1 ± 10.8 years and all of whom had a venous ulcer on their lower limbs of average wound area of 10.8 cm2. QoL, according to the Gdansk Wound-QoL questionnaire, increased on average by 36.7% after 30 days trial. Moreover, on the follow-up visit 94.4% of the patients stated that their knowledge on the disease has increased and everyone was satisfied with the course of treatment proposed by the current doctor. Furthermore, 44.4% of the study group increased their activity at the end of the study. This pilot descriptive observational study shows that Gdansk Wound-QoL questionnaire can provide professionals in wound care good feedback on health-related QoL of patients with chronic wounds. This information has the potential to enhance patients well-being and overall comfort.

The Effect of Warm Water Compress on the Vagina on the Healing of Perinium Wounds in Post Partum Mothers

Background: Based on data from the World Health Organization (WHO) in 2017, around 830 women died every day due to complications during pregnancy or childbirth. In Indonesia, 75% of women who give birth vaginally experience perineal wounds and some of these wounds have the potential to become infected. In the Tanjung Emas Community Health Center working area, out of 23 post partum mothers, 4 people (27%) experienced slow wound healing. One cause of infection is poor perineal care. The cause of the high infection rate is due to a decrease in the body's resistance in mothers who are susceptible to infection. To reduce the risk of maternal death globally from 216.1 million live births in 2015 to 70 per 100,000 live births in 2030.Purpose:The purpose of this research is to determine the effect of warm water compresses on the vagina on healing perineal wounds in post-partum mothers. Methods: The design of this research is a two-group post test only control group design. The population in this study was all postpartum mothers (0-40 days) from December-March 2024 who gave birth in the Tanjung Emas Community Health Center Working Area, namely 23 people. The sampling technique used is a non-probability sample using the sampling technique method in this research using purposive sampling, namely 8 intervention groups and 8 control groups.Results: The results of this study were that the average wound healing was 5.5 and in the Control Group 6.5 days with a mean difference of 1 day and SD = 0.926. The results of calculations using the Paired T-Test showed p value = 0.039 (p 0.05), which means Ho is rejected and Ha is accepted, meaning there is a significant influence between the effect of warm water compresses on the vagina on healing perineal wounds.Conclusion: Further research may be carried out to develop research on other effective methods for healing perineal wounds in pregnant women.

An Evaluation of the Dust Emission Characteristics of Typical Underlying Surfaces in an Aeolian Region in the Middle Reaches of the Yarlung Zangbo River on the Qinghai–Tibet Plateau

Some of the most severe aeolian damage occurs along the middle reaches of the Yarlung Zangbo River in Tibet. Dust emission amounts (DEAs) are often used to assess aeolian damage; however, the research on DEAs in this area is currently almost blank. This article uses field-measured wind speed data from 2021 to 2022 in the Shannan wide valley area, combined with the Gillette dust emission estimation model to quantitatively determine the contributions of three surface types (riverbank quicksand area, foothill sand dunes, and the river floodplain vegetation area) to DEAs in the research area. The influence of surface characteristics on DEAs is analyzed and discussed. The results show the following: (1) The threshold friction velocity (u*t) in the riverbank quicksand area, foothill sand dunes, and the river floodplain vegetation area is 30.6 cm/s, 71.2 cm/s, and 85.6 cm/s, respectively, the threshold velocity (ut) is 6.1 m/s, 7.0 m/s, and 7.5 m/s, respectively, and the vegetation area is 2.8 times and 1.3 times that of the quicksand area, respectively. (2) The DEAs were in the following order: the riverbank quicksand area (652.9 t/km2) > foothill sand dunes (326.5 t/km2) > the river floodplain vegetation area (107.8 t/km2), the riverbank quicksand area is about 6.1 times that of the river floodplain vegetation area, and DEAs are a significant seasonal distribution: winter (44.7%) > spring (28.3%) > autumn (15.7%) > summer (11.3%). (3) The DEAs from the dusty weather were in the following order: blowing sand (60.2%) > sandstorms (28.6%) > gusty winds (11.2%). (4) The DEAs increase with the increase in the average wind speed greater than 6.1 m/s, but the increase rate is obviously different, which showed that Changguo and Azha are greater than Sangyesi, Duopazhang, Sangri, and Senburi. At approximately the same average wind speed greater than 6.1 m/s, the DEAs in the quicksand area are much greater than in the vegetation area.

Impact of the East Asian subtropical jet on summer precipitation in China and its response to Atlantic sea surface temperature

AbstractERA5 reanalysis data, precipitation data from China, and National Oceanic and Atmospheric Administration (NOAA) monthly sea surface temperature (SST) data are used to analyse the impact of the meridional position of the East Asian subtropical jet (EASJ) on summer precipitation in China and its correlation with Atlantic SST. The results indicate that when the EASJ significantly shifts northward, the western North Pacific subtropical high (WNPSH) weakens with an eastward displacement. Upper‐level convergence and moisture divergence, corresponding to descending motion, lead to decreased precipitation in the Yangtze River Valley (YRV). Meanwhile, upper‐level divergence occurs over South China (SC), the Hexi Corridor (HC), and Northeast China (NEC), where moisture converges and ascends, favouring an increase in precipitation. Conversely, when the EASJ undergoes a significant southward shift, the WNPSH strengthens and expands westward. Opposing atmospheric circulation patterns in these four regions result in reversed precipitation anomalies compared with those observed when the jet shifts northward. The meridional position of the EASJ is closely related to the summer subtropical Atlantic SST. The positive (negative) SST anomaly (SSTA) over the subtropical Atlantic induces negative (positive) geopotential height anomaly in the upper troposphere over the North Atlantic by modulating the atmospheric meridional circulation. Geopotential height anomalies trigger eastward‐propagating Rossby waves, generating anomalous cyclones and anticyclones over East Asia. These anomalous cyclones and anticyclones lead to zonal wind anomalies, which alter the strength of the westerlies on both sides of the climatological jet axis, thereby changing the jet's meridional position. Additionally, the difference in the propagation direction of wave activity flux between positive and negative SSTA alters the distribution of wave energy convergence and divergence in the EASJ region, further affecting the intensity of the average westerly winds on both sides of the climatological jet axis, ultimately producing the changes in the meridional position of the EASJ.

Changes in Snow Cover and Its Surface Temperature across the Tibetan Plateau Region from 2000 to 2020

Currently, the global climate system is complex and ever-changing, with multiple factors influencing climate change. The Qinghai–Tibet Plateau, known as the “Third Pole” of the Earth, is particularly sensitive to global climate change. Without timely and scientific research on the ecological environment of the Qinghai–Tibet Plateau and without summarizing relevant adaptive strategies, global climate change will impact the sustainable development of the plateau. This study utilized Landsat remote sensing images from 2000 to 2020 to extract the snow cover area and snow temperature of the Qinghai–Tibet Plateau using the snow frequency threshold method. The study analyzed the spatiotemporal characteristics of snow cover and temperature over the 20-year period and investigated some of the climate and topographical driving factors influencing their changes. The results showed that from 2000 to 2020, the permanent snow cover area in the Qinghai–Tibet Plateau region showed a fluctuating decreasing trend, reducing from approximately 12.34 thousand km2 to around 9.01 thousand km2; the permanent snow temperature showed an initial increase followed by a decrease during the same period. The highest annual average snow temperature was approximately −3.478 °C, while the lowest annual average temperature was around −8.150 °C. Over the 20-year period, the snow cover area in the plateau was negatively correlated with temperature and precipitation, while snow temperature was positively correlated with temperature and precipitation. The snow cover in the weak wind areas of the plateau showed a significant reduction. Areas with higher average wind speeds, such as shaded slopes and semi-shaded slopes, had larger snow cover areas. These research findings provide important insights into the protection and management of the ecological environment of the Qinghai–Tibet Plateau.

Climate state of the Three Gorges Region in the Yangtze River basin in 2022–2023

Based on daily observation data of the Three Gorges Region (TGR) of the Yangtze River basin and global reanalysis data, the climate characteristics, climate events, and meteorological disasters of the TGR in 2022 and 2023 were analyzed. For the TGR, the average annual temperature for 2022 and 2023 was 0.8 °C and 0.4 °C higher than normal, respectively, making them the two warmest years in the past decade. In 2022, the TGR experienced its warmest summer on record. The average air temperature was 2.4 °C higher than the average, and there were 24.8 days of above-average high temperature days during summer. Rainfall in the TGR varied significantly between 2022 and 2023. Annual rainfall was 18.4 % below normal and drier than normal in most parts of the region. In contrast, the precipitation in 2023 was considerably higher than the long-term average, and above normal for almost the entire year. The average wind speed exhibited minimal variation between the two years. However, the number of foggy days and relative humidity increased in 2023 compared to 2022. In 2022–2023, the TGR mainly experienced meteorological disasters such as extreme high temperatures, regional heavy rain and flooding, overcast rain, and inverted spring chill. Analysis indicates that the abnormal western Pacific subtropical high and the abnormal persistence of the eastward-shifted South Asian high were the two important drivers of the durative enhancement of record-breaking high temperature in the summer of 2022.摘要基于长江三峡地区观测资料和全球再分析资料, 分析了该地区 2022–2023年气候特征, 酸雨状况以及主要天气气候事件. 2022 年和2023年三峡地区平均气温分别较常年偏高0.8 °C和0.4 °C, 是近十年来最暖的两年, 特别是2022年夏季出现破记录极端高温; 2022年三峡地区降水量较常年偏少18.4 %, 2023年降水量转为偏多15.3 %. 在这两年中该地区主要出现了极端高温, 区域性暴雨洪涝, 连阴雨和倒春寒等气候事件. 分析表明, 西太平洋副热带高压和南亚高压协同异常是2022年夏季极端高温维持的两个重要因素.

Phytochemical profile, antioxidant, and wound healing activities of Echium amoenum (Boraginaceae)

Natural products’ inflammatory and antioxidant properties have crucial roles in tissue repair and regeneration. This study aimed to investigate HPLC analysis, antioxidant activity, and wound-healing effect of Echium amoenum (EA) on rats. The EA was analysed for the determination of shikonin a derivative of naphthoquinone. In the wound healing assessment, forty Wistar rats were divided into five groups that were receiving the cream base, normal saline (NS), 1% silver sulfadiazine (SSD), and 5 and 10% EA cream (EAC). Shikonin was found in the EA extract. The average wound area on the 10th day was 0.71 ± 0.01, 0.86 ± 0.13, 0.58 ± 0.08, 0.53 ± 0.03 and 0.43 ± 0.04 cm2 for the cream base, NS, SSD, and 5 and 10% EAC, respectively. The collagen fibres were well formed and horizontally oriented in 5 and 10% EAC groups compared to other groups. EA cream was an effective treatment for wound healing in comparison with SSD.

Study of dust events based on multi-source data in the North Slope of the Tianshan Mountains

To reveal the spatial-temporal characteristics of atmospheric pollution during dust events on the North Slope of the Tianshan Mountains (NSTM), this study conducted a joint detection experiment from April to June from 2019 to 2021 at Shihezi, using satellite remote sensing, a microwave radiometer, meteorological sensors, and environmental monitors. Using long-term detection data from the aforementioned equipment, this study analyzed the characteristics of meteorological elements, Aerosol Optical Depth (AOD), PM, and gaseous pollutants. The main findings are as follows: The dust particles from the two severe pollution dust events on April 9, 2020, and May 1, 2021, on the NSTM originated from the Gurbantünggüt Desert and were transported along the northwest direction, leading to a significant increase in AOD (averaging 1.36 g/m2) and dust column mass concentration (averaging 1.58 g/m2). During the two dust storms, the PM10 concentration peaks reached 2536.5 μg/m³ and 1804.5 μg/m³, respectively. The average relative humidity (RH) was less than 30%, the average wind speed was more than 6 m/s, and the average visibility (V) was less than 1000 m. Moreover, during the dust events from April to June, the temperature and relative humidity were higher in June, but the wind speed was lower. The vertical thermodynamic interactions of the dust storms were stronger than those of the blowing and floating dust storms. Finally, the relationship between PM10 and V was fitted using the following equation: V=11326.8166e−0.0015PM10.This study provides scientific support for the prediction of dust storms on the NSTM.

Comparison of Negative-Pressure Wound Therapy and Gradual Wound Approximation Treatments for Infected Fasciotomy Wounds.

Negative-pressure wound therapy (NPWT) and gradual wound approximation (GWA) are effective and reliable methods of treating fasciotomy wounds. However, the effectiveness of these 2 methods in treating infected wounds remains unclear. The aim of our study was to compare these 2 delayed primary closure methods of treating infected fasciotomy wounds on the limbs. Patients who underwent fasciotomy surgery on the extremities after sustaining crushing injuries in the 2023 Kahramanmaraş-centered earthquakes and who were referred owing to infected open wounds during follow-up were included in the study. Patients who completed the wound closure process at our clinic were divided into 2 groups: the NPWT and GWA groups. Using retrospectively collected data, the groups were compared in terms of demographic characteristics, time until wound closure, number of surgeries, skin graft requirements, and complications. Laboratory parameters were also examined. Thirteen patients, (with 21 wounds) who underwent NPWT and 14 (with 22 wounds) who underwent GWA, were examined. The average age of the NPWT group was 32.85 ± 18.37 years, whereas that of the GWA group was 25.21 ± 16.31 years. The number of surgeries in the NPWT and GWA groups were 5.38 ± 2.11 and 4.23 ± 1.27, respectively, and the difference was statistically significant (P = .040). The average wound closure times of the NPWT and GWA groups (P = .0210) (11.00 ± 4.86 days and 8.27 ± 2.41 days, respectively) also differed significantly. Skin grafting was performed in 5 patients in the NPWT group and 2 in the GWA group. There were no significant differences between the 2 groups in terms of skin graft requirements or complication rates. NPWT and GWA are effective and reliable methods of closing infected fasciotomy wounds. Closure of these wounds can be achieved in a shorter time and with fewer surgeries using GWA than using NPWT.

Hybrid wind-solar energy potential modeling using ERA5 and solar irradiation data in google Earth Engine

Renewable energies play a significant role in mitigating the climate change impacts. Wind and solar energy are projected to supply larger amount to the total renewable energy capacity of many nations. Long-term wind and solar data availability and analysis is vital for sustainable renewable energy farming. In this research, we analyze wind speed u- and v-components at 10 m height of the ERA5 daily reanalysis aggregates at a mesh of 31 Km during a long period (2010–2020) over the Red Sea and the Gulf of Suez coasts of Egypt. Google Earth Engine (GEE) code is developed and used for the analysis. The prime objective is to derive estimates on the spatio-temporal variability of speed, direction, and the wind energy estimates in the area. Further, the solar energy potential has been evaluated using reference data of the PVOUT – Photovoltaic power potential (kWh/m2/day) data, at nearly 1 km resolution, which is normalized at the evaluated sites, and then used to rank sites with their solar energy potential. Evaluation of estimates is carried out at selected thirteen sites distributed along the coasts to better understand the hybrid wind-solar energy potential. Frequency analysis is carried out to the wind speed spatial estimates to demarcate highest frequency wind events potential for wind farming. Reference in-situ wind speed observations available at daily and monthly time scales for Hurghada weather station is used for investigating the reanalysis data performance. The Hurghada site had the highest average wind speed (6.7 m s−1), frequency of events (75 %), and mean daily (60.4 kWh) and annual (22.02 MWh) wind energy. The windiest time intervals were the September month, 2017 year, and the summer season. The north had wind energy directions of 130°, while the south had 110°. Trend analysis showed declining trends for northern locations and rising yearly wind speed estimates for Berenice (0.005) and Halayeb (0.002). El-Tor location had the highest solar energy output, with a daily mean of 5.52 kWh/m2 and an annual mean of almost 2015 kWh/m2. The Hurghada, Jemsa, G. Zeit, and El-Tor sites achieved the highest rankings in terms of hybrid wind-solar energy potential. The results can be very valuable for optimal location of hybrid solar-wind energy facilities and provide viable and promising solutions for sustainably meeting Egypt's growing clean energy demands.

Meteorological regime of the Elbrus high-mountain zone during the accumulation period

Unique automated meteorological observations were carried out on the southern slope of Elbrus, near Pastukhov Rocks, at 4700 m a.s.l., during the 2021–2022 accumulation season. Data were obtained on air temperature, humidity, wind speed and direction, snowdrift and radiation fluxes with a temporal resolution of 1 minute or less. Analysis of the data series showed that the representative winter air temperature at this altitude on the southern slope of Elbrus is –10 °С, and the minimum is –36.4 °С; the partial pressure of water vapor does not exceed 3.5 hPa. At the same time, the average daily maximum of wind speed amounted 13.1 m s–1 with the absolute maximum of 54.1 m/s. Snowstorms with a snow transport intensity of more 0.1 kg/m2s–1 are quite common phenomenon in winter, while the maximum average value of the transport reaches 0.87 kg/m2s–1. An empirical relationship was established between the average hourly wind speed and the maximum gust speed for the same period, and it was shown that for these conditions the wind gust exceeds the average hourly wind speed by 1.8 times, while the representative value of the standard deviation of wind speed is 5.8 m s–1. This information may be useful not only for the glaciologic problems and modeling, but also for construction and engineering surveys, which are relevant in view of the present-day active development of the mountain ski infrastructure on the southern macro-slope of the Elbrus. In addition, the obtained series of instrumental observations were used to assess the quality of reanalysis data for high mountain regions taking as an example the ERA5. The ERA5 reanalysis was demonstrated to reproduce rather successfully the air temperature, wind speed and humidity in high mountain conditions, but extreme values for all these parameters are underestimated. Thus, the minimum temperature in winter turned out to be overestimated by 2 °C, and the maximum was underestimated by 4 °C, while the wind speed, according to the ERA5 reanalysis, never exceeded 40 m/s during the above observation period. It is also shown that the FlowCapt4 acoustic blizzard gauge (driftometer) can be used to estimate average wind speeds since it is less sensitive to severe high-altitude conditions compared to acoustic and cup anemometers.

Numerical simulation and field study on predicting wind-blown sand accumulation in sand mitigation measures of the Ganquan railway

The accumulation of sand induced by wind poses a significant challenge to the safety and maintenance of railways in arid and desert regions. Accurate calculation and prediction of sand accumulation are crucial for ensuring continuous railway operation. This research is centered on the region significantly impacted by sand accumulation along the Ganquan Railway. Wind speed, wind direction, and sand carrying capacity data near this section were monitored. Using the collected wind speed, wind direction, and wind-sand flow density data, numerical simulations were conducted using the Computational Fluid Dynamics (CFD) method to predict the amount of sand accumulation within the sand mitigation measures of the Ganquan Railway. Monitoring results indicate that the dominant wind direction in spring and summer is due west, while in autumn and winter it is southwest, with an average wind speed of 12 m/s. A positive correlation was observed between wind-sand flow density and wind speed. The wind-sand flow density above 2 m was nearly zero, indicating that the wind-sand flow structure is concentrated within 2 m from the ground, with an average wind-sand flow density of 3.50×10−5 kg/m3. Through numerical simulation, the characteristics of the wind field and sand accumulation distribution within the calculation domain were determined. A relationship equation between sand accumulation mass and width over time was derived. Initially, the sand accumulation width increases uniformly and then stabilizes, while the sand accumulation mass rises uniformly to a plateau before in-creasing rapidly. From these findings, the optimal period for sand removal was identified as between 350 and 450 days after the sand mitigation measures are put into operation.

The Effect of Giving Mangrove Leaf Extract (Rhizophora apiculata) on the Healing of Burn Wounds in Male White Rats (Rattus novergicus) of the Sprague Dawley Strain

A burn wound is damage or loss of tissues caused by contact with a heat source and can be classified into four degrees: I, IIA, IIB, and III. Anti-inflammatory and antioxidant agents such as mangrove leaves can be applied to aid the healing process of burns. One alternative method is to use mangrove leaf extract. This study aims to understand the acceleration of burn healing by applying mangrove leaf extract (Rhizophora apiculata). This study was a true experimental study with a post-test-only control group design, divided into five groups: Knormal (without treatment), K+ (bioplacenton), P1 (20% extract), P2 (30% extract), and P3 (40% extract). Burn wounds were observed for 21 days and assessed with average wound shortening, healing time, and the Bates-Jensen wound assessment tool. Based on the results of statistical tests, it was found that the application of Rhizophora apiculata leaf extract affected the healing of burns in white rats, resulting in a reduction in the burn area (P Value: 0.001). The application of mangrove leaf extract had an effect on the healing time of burns in white rats (P Value: 0.001). An effective dose of mangrove leaf extract was a concentration of 40% for healing burns, a higher effectiveness in healing burns compared to the standard drug, bioplacenton. The administration of mangrove leaf extract positively affects the healing of burns in male white rats (Rattus novergicus) of the Sprague Dawley strain, especially with an extract concentration of 40%.

The Nigeria climate zones: Variability, trends and analysis from era-interim data (2010-2015)

This study analyses diurnal weather patterns in the lower atmosphere across four climate domains in Nigeria from Era-Interim data for synoptic hours of 0000, 0600, 1200 and 1800 hours from 2010-2015. The climate domain includes: Port Harcourt (tropical maritime), Enugu (bi-modal tropical continental), Jos (montane), Kano (mono-modal tropical continental) and Maiduguri (semi-arid). Findings revealed that air temperature across the areas indicate strong latitudinal positions with drier and hotter weather pattern northwards. Average air temperature across diurnal hours were 23.2-26oC, 23-29oC, 26-32oC, 26-34oC and 26.6-34 oC for Port Harcourt, Enugu, Jos, Kano and Maiduguri. Average solar radiation peaked at 1200 noon with values 508 W/m2, 639 W/m2, 830 W/m2, 905 W/m2, 832 W/m2 for the areas. Average wind speed increases northwards, i.e. 0.9-1.3m/s, 2.0-2.5m/s, 2.1-2.5m/s, 2.4-3.0m/s and 2.9-3.5m/s respectively. The wind variation is due to the surface characteristics across the areas. Southwesterly winds dominated coastal zone while southeasterly/northeasterly winds dominated the arid zone except during periods of peak rainy season. Average cloud cover for the coastal and northern domains in oktas was: 6-7 and 2-4. Relative humidity shows that prevailing atmospheric conditions at any given time are stronger at the areas close to the sources of influence and the position of Intertropical discontinuity (ITD). Humidity values were: 67-93% and 31-71% for coastal and northern domains. Rainfall amount reduces northwards i.e. 200-46 mm. Rainfall pattern is significantly influenced by the air masses source regions. These regions include closeness to massive water bodies, proximity to Sahara Desert and effects of mountainous barriers.

Optimal planning of renewable energy park for green hydrogen production using detailed cost and efficiency curves of PEM electrolyzer

Installing multi-renewable energy (RE) power plants at designated locations, known as RE parks, is a promising solution to address their intermittent power. This research focuses on optimizing RE parks for three scenarios: photovoltaic (PV)-only, wind-only, and hybrid PV-wind, with the aim of generating green hydrogen in locations with different RE potentials. To ensure rapid response to RE fluctuations, a Proton Exchange Membrane (PEM) electrolyzer is employed. Furthermore, this research proposes detailed models for manufacturer-provided wind power curves, electrolyzer efficiency against its operating power, and electrolyzer cost towards its capacity. Two optimization cases are conducted in MATLAB, evaluating the optimum sizes of the plants in minimizing levelized cost of hydrogen (LCOH) using classical discrete combinatorial method and determining the ideal PV-to-wind capacity ratio for operating PEM electrolyzer within hybrid PV-wind parks using particle swarm optimization. Numerical simulations show that wind power-based hydrogen production is more cost-effective than PV-only RE parks. The lowest LCOH, $4.26/kg H2, and the highest LCOH, $14.378/kg H2, are obtained from wind-only and PV-only configurations, respectively. Both occurred in Adum-Kirkeby, Denmark, as it has highest average wind speed and lowest irradiance level. Notably, LCOH is reduced with the hybrid PV-wind configuration. The results suggest the optimum PV-to-wind capacity ratio is 65:35 on average and indicate that LCOH is more sensitive to electrolyzer's cost than to electricity tariff variation. This study highlights two important factors, i.e., selecting the suitable location based on the available RE resources and determining the optimum size ratio between the plants within the RE park.

Unified properties of supermassive black hole winds in radio-quiet and radio-loud AGN

ABSTRACT Powerful supermassive black hole (SMBH) winds in the form of ultra-fast outflows (UFOs) are detected in the X-ray spectra of several active galactic nuclei (AGNs) seemingly independently of their radio classification between radio quiet (RQ) and radio loud (RL). In this work, we explore the physical parameters of SMBH winds through a uniform analysis of a sample of X-ray bright RQ and RL AGN. We explored several correlations between different wind parameters and with respect to the AGN bolometric and Eddington luminosities. Our analysis shows that SMBH winds are not only a common trait of both AGN classes but also that they are most likely produced by the same physical mechanism. Consequently, we find that SMBH winds do not follow the radio-loudness dichotomy seen in jets. On average, a comparable amount of material accreted by the SMBH is ejected through such winds. The average wind power corresponds to about 3 per cent of the Eddington luminosity, confirming that they can drive AGN feedback. Moreover, the most energetic outflows are found in the most luminous sources. We find a possible positive correlation of the wind energetics, renormalized to the Eddington limit, with respect to $\lambda _{\mathrm{ Edd}}$, consistent with the correlation found with bolometric luminosity. We also observe a possible positive correlation between the energetics of the outflow and the X-ray radio-loudness parameter. In general, these results suggest an underlying relation between the acceleration mechanisms of accretion disc winds and jets.

Effectiveness and safety of an innovative silicone extender in suture reinforcement or dermatotraction: a retrospective study.

Multiple techniques are available for closing skin defects, such as skin grafts, flaps and tissue expansion. The tissue extender MID SEW (MID, France) was developed to achieve dermatotraction or suture reinforcement. The aim of this study was to evaluate the effectiveness and safety of this innovative silicone extender for large surgical wounds. A single-centre retrospective and observational study on an unselected consecutive cohort of patients treated with a tissue extender was conducted. Indications, initial and final wound surfaces, and adverse events (AEs) were retrieved from electronic medical records. The main outcome measure was the time to complete wound closure. We identified 50 patients from July 2017 to December 2018. Patients underwent cutaneous tumour-wide excision (n=44), or pilonidal disease surgical treatment (n=6). The average initial wound area was 53.3±42.4cm2. Healing was complete, without secondary dehiscence, within the first seven days after device withdrawal for 41 patients (82%). At least one AE was experienced by eight patients (16%) during the study period: five inflammation; five wound dehiscence; two skin necrosis; and one pain. This case series suggests that the tissue extender may be effective and safe in its dermatotraction and suture reinforcement indications in the treatment of large wounds after wide excision of skin cancer or treatment of pilonidal disease. This work was supported in part by the Hospices Civils de Lyon, France and in part by the University Claude Bernard Lyon 1, France. OB co-owns the patent on the MID SEW system. The authors have no other conflicts of interest to declare.