Your search keyword '"outflow"' showing total 10,930 results

1. Assessing year-round microplastic loading in the lower Brahmaputra River: A threat to aquatic environment

Author

Hassan, Md. Anamul, Shammi, Mashura, and Tareq, Shafi M.

Published

2025

2. Cerebral arterial collateral status, but not venous outflow profiles, modifies the effect of intravenous tissue plasminogen activator in acute ischemic stroke

Author

Elif Sarionder Gencer, Ezgi Yilmaz, Ethem Murat Arsava, Rahsan Gocmen, and Mehmet Akif Topcuoglu

Subjects

collateral, outflow, penumbra, stroke, thrombolysis, venous, Medical technology, R855-855.5, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

BACKGROUND: The role of arterial collateral and venous outflow status on the response to intravenous tissue plasminogen activator (IV-tPA) has not been sufficiently clarified in acute major cerebral occlusions. PATIENTS AND METHODS: A total of 130 patients (mean age: 71 years; 73 females) with acute middle cerebral artery M1/M2 segment or terminal internal carotid artery occlusion treated solely with IV-tPA were analyzed. Regional leptomeningeal score (rLMC) was used for cerebral arterial collateral scoring, and the cortical vein opacification score (COVES) and modified Prognostic Evaluation based on Cortical vein score difference In Stroke (PRECISE) superficial and deep scores were used for venous outflow profile. Exploratory logistic models for response to IV-tPA [positive response: National Institutes of Health Stroke Scale (NIHSS) decrease 4 (or decrease to 0) at 24 h; dramatic response: NIHSS decrease ≥8 (or decrease to 0 or 1)], functional outcome (modified Rankin’s score 0–1 as “excellent” and 0–2 “good”) and tPA-associated hemorrhagic transformation were constructed. RESULTS: IV-tPA efficacy was positive in 47% and dramatic in 32%. Dramatic response was linked to better arterial collateral status (exp[B] =1.115 [95% confidence interval (CI), 1.016–1.223]). Excellent outcome was noted in 26% and good in 45%. One-point increase in rLMC score independently increased good prognosis (exp[B] =1.209 [1.034–1.412]). Patients with good prognosis had higher (by 0.5 points) modified PRECISE deep score (P = 0.047) and less frequent nonsufficient modified PRECISE deep score (0–2) (P = 0.017) in univariate analyses. However, these associations failed to survive in multiple regression. Any type tPA-associated cerebral hemorrhagic transformation was observed in 23% and parenchymal hemorrhage type 2 in 5.4%. While rLMC score showed a borderline strength correlation to hemorrhage (exp[B] =0.899 [95% CI, 0.808–1.001]), outflow scores not. CONCLUSION: While arterial collateral status modifies the effect of tPA in acute anterior circulation major artery occlusions, venous outflow capacity is not so critical.

Published

2024

3. THE NORTHERN TERRITORIES OF WESTERN SIBERIA: DEMOGRAPHIC TRENDS AND GROWTH PARADOXES

Author

Andrei G. Shelomentsev, Vladimir M. Kurikov, Kseniya S. Goncharova, and Alina V. Istratii

Subjects

northern western siberia, development, mineral resources, new northern cities, population, outflow, migration, natural growth, shift work, workforce, Social Sciences

Abstract

This paper analyzes socio-demographic trends over the past sixty years in the northern territories of Western Siberia, specifically the Khanty-Mansiysk and Yamalo-Nenets Autonomous Okrugs. The study spans from the initial development of mineral resources in the 1950s–1960s to the present day. These regions are distinctive not only for their climatic and ethnocultural characteristics but also for their unique socio-economic models of regional development. The active phase of resource exploitation led to substantial population growth and rapid urbanization in the Khanty-Mansiysk and Yamalo-Nenets Autonomous Okrugs, resulting in the establishment of over 20 new cities. However, since the 2000s, a gradual decline in oil and gas production has reversed these trends, causing a persistent outflow of population and reduced economic activity in many municipalities. The study identifies both commonalities and divergences in socio-demographic trends across the two regions. For instance, the Khanty-Mansiysk Autonomous Okrug, unlike the Yamalo-Nenets Autonomous Okrug, has experienced a gradual population increase, primarily driven by natural population growth and positive net migration. Meanwhile, both regions exhibit similar changes in the age and gender structure of their populations and a shift in settlement patterns between urban and rural areas. The findings highlight the need for further comprehensive analysis of socio-demographic trends, with particular attention to permanent residents, indigenous small-numbered peoples of the North, and populations engaged in shift work. Additionally, the study underscores the importance of considering socio-cultural and climatic conditions in evaluating health indicators, as well as mortality and fertility rates.

Published

2024

4. The Anatomy of a Drought in the Upper San Francisco Estuary: Water Quality and Lower-Trophic Responses to Multi-Year Droughts Over a Long-Term Record (1975-2021)

Author

Bosworth, David H., Bashevkin, Samuel M., Bouma–Gregson, Keith, Hartman, Rosemary, and Stumpner, Elizabeth B.

Subjects

water quality, nutrient, chlorophyll, drought, inflow, outflow, estuary

Abstract

Multi-year droughts are ever-present and transformational features of California’s Mediterranean climate and can fundamentally affect the water quality and the ecosystem responses of the San Francisco Estuary and the Sacramento–San Joaquin Delta. This study assessed data collected by long-term monitoring programs over the past 46 water years (1975–2021) to evaluate how water quality in the estuary changes during multi-year droughts. Data were aggregated by region (South-Central Delta, North Delta, confluence, Suisun Bay, and Suisun Marsh) and season, then differences between multi-year drought periods, multi-year wet periods, and neutral periods were compared using generalized linear models. We found that multi-year drought periods altered multiple physical and chemical parameters in the estuary, increasing water temperature, salinity, water clarity, and nutrient levels. This trend was consistent across regions and seasons, with few exceptions. Increases in these parameters during drought periods were likely caused by reduced Delta inflows that intensified in each successive dry year because of reduced precipitation and managed estuarine inflows and outflows. Drought periods did not substantially affect tidal velocities within the estuary, which remained mostly consistent across wet and drought periods. Trends in chlorophyll concentrations during drought periods were more nuanced with higher concentrations occurring in the South-Central Delta region and during the winter and spring. Together, these results characterized drought in the estuary as warm, clear, high in nutrients, with patchy phytoplankton blooms (as indexed by chlorophyll), all of which have implications for higher trophic levels. Considering that droughts are expected to increase in frequency and intensity in California with climate change, understanding the effects of multi-year droughts on the water quality conditions of the estuary can help inform water management decisions.

Published

2024

5. The association between demographic, economic, and medical resource factors and the inflow and outflow of critically ill emergency patients by medical service districts in South Korea.

Author

Young Jin Huh, Han Na Lee, Se Hyung Kim, Mi Ra Oh, and Sung Min Lee

Subjects

*MULTIPLE regression analysis, *MAGNETIC resonance imaging, *INTENSIVE care units, *EMERGENCY medical services, *CRITICALLY ill

Abstract

This study identified the in- and outflow of critically ill emergency patients in 70 medical service districts, categorized them into regional types, and analyzed their association with demographics, economy, and medical resources in South Korea. This study analyzed 922,108 emergency department (ED) visits for severe diseases from 01 January to 31 December 2021. The relevance (RI) and commitment (CI) indices were calculated, followed by cluster analysis to categorize region types for critical care. Demographic, economic, and medical resource factors were compared and analyzed for each district type. Finally, a correlation analysis and multiple linear regression analysis were conducted to compare the association of demographic, economic, and medical resources with RI and CI. The district types were divided into 21 outflow and 49 inflow districts. Additionally, RI was associated with the number of primary clinics (β = -0.805), the average number of performed computed tomography scanners (β = 1.320), the average number of performed magnetic resonance imaging (MRI) scanners (β = -1.125), and the average number of dedicated specialists in the ED (β = 1.176) (p < 0.01). The CI was associated with the financial autonomy rate (β = 0.366), the number of primary clinics (β = 0.708), the number of intensive care units (ICUs) (β = -1.290), the number of vulnerable areas for emergency medicine (β = 0.395), the average number of dedicated specialists in the ED (β = -0.512), and the number of beds in the ED (β = 0.915) (p < 0.01). The lower the average number of MRIs and the number of primary clinics, the greater the outflow of critically ill emergency patients from the central region. The higher the number of ICUs and the average number of dedicated specialists in the ED, the greater the inflow of critically ill emergency patients from other districts. [ABSTRACT FROM AUTHOR]

Published

2024

6. Cerebral arterial collateral status, but not venous outflow profiles, modifies the effect of intravenous tissue plasminogen activator in acute ischemic stroke.

Author

Gencer, Elif Sarionder, Yilmaz, Ezgi, Arsava, Ethem Murat, Gocmen, Rahsan, and Topcuoglu, Mehmet Akif

Subjects

TISSUE plasminogen activator, ISCHEMIC stroke, INTERNAL carotid artery, ARTERIAL occlusions, CEREBRAL arteries

Abstract

BACKGROUND: The role of arterial collateral and venous outflow status on the response to intravenous tissue plasminogen activator (IV-tPA) has not been sufficiently clarified in acute major cerebral occlusions. PATIENTS AND METHODS: A total of 130 patients (mean age: 71 years; 73 females) with acute middle cerebral artery M1/M2 segment or terminal internal carotid artery occlusion treated solely with IV-tPA were analyzed. Regional leptomeningeal score (rLMC) was used for cerebral arterial collateral scoring, and the cortical vein opacification score (COVES) and modified Prognostic Evaluation based on Cortical vein score difference In Stroke (PRECISE) superficial and deep scores were used for venous outflow profile. Exploratory logistic models for response to IV-tPA [positive response: National Institutes of Health Stroke Scale (NIHSS) decrease 4 (or decrease to 0) at 24 h; dramatic response: NIHSS decrease ≥8 (or decrease to 0 or 1)], functional outcome (modified Rankin's score 0–1 as "excellent" and 0–2 "good") and tPA-associated hemorrhagic transformation were constructed. RESULTS: IV-tPA efficacy was positive in 47% and dramatic in 32%. Dramatic response was linked to better arterial collateral status (exp[B] =1.115 [95% confidence interval (CI), 1.016–1.223]). Excellent outcome was noted in 26% and good in 45%. One-point increase in rLMC score independently increased good prognosis (exp[B] =1.209 [1.034–1.412]). Patients with good prognosis had higher (by 0.5 points) modified PRECISE deep score (P = 0.047) and less frequent nonsufficient modified PRECISE deep score (0–2) (P = 0.017) in univariate analyses. However, these associations failed to survive in multiple regression. Any type tPA-associated cerebral hemorrhagic transformation was observed in 23% and parenchymal hemorrhage type 2 in 5.4%. While rLMC score showed a borderline strength correlation to hemorrhage (exp[B] =0.899 [95% CI, 0.808–1.001]), outflow scores not. CONCLUSION: While arterial collateral status modifies the effect of tPA in acute anterior circulation major artery occlusions, venous outflow capacity is not so critical. [ABSTRACT FROM AUTHOR]

Published

2024

7. Calculating Soil Nutrient Depeletion of Smallholder Farms in Northern Ethiopia Using Full Soil Nutrient Balance.

Author

Esubalew, Tilahun, Amare, Tadele, and Molla, Eyayu

Subjects

*SOIL composition, *SOIL fertility, *GRAIN yields, *CROP residues, *AGRICULTURAL productivity

Abstract

Soil fertility is the controlling factor of agricultural production worldwide including Waghimera zone, Ethiopia. However, it has been diminished from time to time and leads to low crop yield. Measuring of soil nutrient inflow-outflow affords necessary information about the current nutrient status of the soils, and to take appropriate nutrient management practices. The study was conducted to estimate the full soil nutrient balance of cultivated farms in the northern, of Ethiopia, in the 2020/21 main season. Inflow and Outflow of N, P, and K into, and out of farms were measured through the interview, field measurement, laboratory analysis, USLE model, and pedo-transfer functions. The full N balance of barley, tef, and wheat were -66.7, -8.9, and - 47.1 kg ha-1 yr-1, respectively. P full balance was -5.4, 1.4, and -1.9 kg ha-1 yr-1 for barley, tef, and wheat farms, respectively. Whereas, K balance was also -12.4, -3.3, and -6 kg ha-1 yr-1 for barley, tef, a nd wheat, respectively. The balance quantification was done by subtracting nutrient outflows from the inflows. The results revealed that N, P, and K had negative balances except for P in tef. Grain yield and crop residue removal were the major paths of nutrient loss. To sustain, and boost agricultural production, reversing the imbalance between inflows, and outflows is critically essential for the study area. The current highly depleted nutrient should be corrected by adding sufficient organic, and inorganic nutrient sources, like in situ manuring, biochar, green manure, and remaining crop residue in the fields. [ABSTRACT FROM AUTHOR]

Published

2024

8. Hourglass Magnetic Field of a Protostellar System.

Author

Basu, Shantanu, Li, Xiyuan, and Bino, Gianfranco

Subjects

*MAGNETIC fields, *MAGNETIC flux density, *GRAVITATIONAL collapse, *CIRCUMSTELLAR matter, *PROTOSTARS

Abstract

An hourglass-shaped magnetic field pattern arises naturally from the gravitational collapse of a star-forming gas cloud. Most studies have focused on the prestellar collapse phase, when the structure has a smooth and monotonic radial profile. However, most observations target dense clouds that already contain a central protostar, and possibly a circumstellar disk. We utilize an analytic treatment of the magnetic field along with insights gained from simulations to develop a more realistic magnetic field model for the protostellar phase. Key elements of the model are a strong radial magnetic field in the region of rapid collapse, an off-center peak in the magnetic field strength (a consequence of magnetic field dissipation in the circumstellar disk), and a strong toroidal field that is generated in the region of rapid collapse and outflow generation. A model with a highly pinched and twisted magnetic field pattern in the inner collapse zone facilitates the interpretation of magnetic field patterns observed in protostellar clouds. [ABSTRACT FROM AUTHOR]

Published

2024

9. An Increase in the Energy Efficiency of Vortex Micro HPP with a Flexible Outlet Siphon by Self-Adjustment of Flows in the Pressure Chamber

Author

Omari Zivzivadze, Archil Geguchadze, Badri Zivzivadze, David Dzadzamia, Anzori Kuparadze, and Nata Sulakvelidze

Subjects

low head turbine, energy efficiency, ascending channel, small guide wings, inflow, outflow, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The article aims to increase the energy efficiency of the vortex micro-power plant, which would be achieved due to its compatibility with the terrain. In particular, the inlet channel connected to the water intake of the pressure chamber and the water collector placed in the upper pool by transverse joints, and the flexible siphon connected by vertical and horizontal joints to the diffuser of the same chamber with a telescopic end. The boundary conditions were selected with parameters such as the water flow acceleration according to the river bed’s slope angle and the inclination angle of the upstream channel near the vertical pressure cone chamber. The level difference between the upper and lower pools was adjusted. Inside the pressure chamber, the inclined guides of the small wings were hinged to its wall and were adjusted by ballasts. The reactive forces generated by the upward reflection of the incoming flow from the surfaces on the inclined small guide wings of the pressure chamber were a factor in curbing the said flow (compensating for the insufficient volume flow) and ensuring the continuity of the water supply to the turbine in shallow water. The mentioned circumstances allowed for improving the synchronization of incoming and outgoing flows. As a result of the above improvements, an increase in the energy efficiency (i.e., annual electricity generation) of 15–20 % was achieved.

Published

2024

10. Flow Augmentations Modify an Estuarine Prey Field

Author

Lee, Calvin Y., Smith, April G., Hassrick, Jason L., Kalmbach, Andrew J., Sabal, Megan C., Cox, Daniel M., Grimaldo, Lenny F., and Schultz, Andrew

Subjects

zooplankton, X2, outflow, estuarine hydrology, Delta Smelt

Abstract

Zooplankton density and community composition in estuaries can be affected by variation in freshwater inputs, with important implications for higher trophic levels. In the San Francisco Estuary, management agencies have initiated autumn flow augmentations in the form of changes to reservoir releases or to exported water from the South Delta to increase and improve available habitat for endangered Delta Smelt, Hypomesus transpacificus, during the season when their body condition most influences fecundity. Autumn flow augmentation only occurs in years with higher precipitation, effectively moving the Low-Salinity Zone (LSZ) downstream to key foraging habitats for Delta Smelt in Suisun Bay and Suisun Marsh. To assess whether augmented flow enhanced prey resources for Delta Smelt, we compared autumn zooplankton abundance, biomass, spatial distribution, and community composition in years when flow was augmented (2017, 2019) with reference years when flow was not augmented (2018, 2020). In augmented years, we detected higher total zooplankton abundance and altered community composition in Suisun Bay and Suisun Marsh. Increased freshwater in these regions was associated with higher abundance of Pseudodiaptomus forbesi, a preferred prey of Delta Smelt, while species associated with higher salinities—Acartiella sinensis and Tortanus dextrilobatus—were less abundant. Thus, autumn flow augmentations can influence foraging habitat and prey availability for Delta Smelt, underscoring the complex responses of estuarine zooplankton communities to changes in response to flow and salinity regimes. This study is management- relevant because it shows that important Delta Smelt prey items increase in downstream regions when X2 is lower. Whether that results in a response in Delta Smelt abundance remains to be seen.

Published

2023

11. Spatial Vector Autoregressive with Metric Exogenous Variable (SpVARX) for Inflation and Outflow Forecasting.

Author

Sohibien, Gama Putra Danu, Setiawan, and Prastyo, Dedy Dwi

Subjects

INFLATION forecasting, PRICE regulation, STANDARD deviations, AUTOREGRESSIVE models, CITIES & towns

Abstract

Forecasting inflation and outflow is very important for the government to make price control policies. We propose SpVARX be applied to inflation and outflow forecasting. SpVARX can simultaneously accommodate interrelationships between variables, the influence of metric exogenous variables, and spatial aspects. Our study shows SpVARX has better forecasting performance than SpVAR, as most of SpVARX's Root Mean Square Errors (RMSEs) are smaller than SpVAR's. Based on the forecast, the highest inflation in Semarang and Solo will occur in November 2023, while the highest inflation in Yogyakarta will occur in December 2023. The highest outflow forecast for all these cities is in April 2023. [ABSTRACT FROM AUTHOR]

Published

2024

12. Patterns and predictors of condition indices in a critically endangered fish

Author

Hammock, Bruce G, Hartman, Rosemary, Dahlgren, Randy A, Johnston, Catherine, Kurobe, Tomofumi, Lehman, Peggy W, Lewis, Levi S, Van Nieuwenhuyse, Erwin, Ramírez-Duarte, Wilson F, Schultz, Andrew A, and Teh, Swee J

Subjects

Life on Land, Hepatosomatic index, Condition factor, Estuary, Outflow, Chlorophyll a, Temperature, Delta Smelt

Abstract

Condition indices are key predictors of health and fitness in wild fish populations. Variation in body condition, therefore, can be used to identify stressful conditions that may impact endangered species, such as California’s endemic Delta Smelt (Hypomesus transpacificus McAllister, 1963). Here, we examined spatiotemporal variation in the condition indices of > 1600 Delta Smelt collected over nine years (2011–2019), a period characterized by tremendous variability in hydrodynamic and water quality conditions. The population exhibited low hepatosomatic index (HSI) and condition factor (CF) during September/October/November (fall), and both condition indices declined over the nine-year study during fall. HSI was positively correlated with indicators of pelagic productivity (e.g., Chlorophyll a, zooplankton biomass, and proximity to tidal wetlands), whereas CF was negatively correlated with temperature, peaking at a relatively cool 10–13 °C. In sum, seasonal and interannual variation in body condition corresponded most strongly with pelagic productivity and water temperature, with little correlation to freshwater outflow. Management actions that increase pelagic productivity, restore and freshen productive wetlands during late summer-fall, and reduce water temperatures overall are likely to benefit condition indices and, therefore, fitness of the Delta Smelt population.

Published

2022

13. Assessment of Different Machine Learning Methods for Reservoir Outflow Forecasting.

Author

Soria-Lopez, Anton, Sobrido-Pouso, Carlos, Mejuto, Juan C., and Astray, Gonzalo

Subjects

MACHINE learning, SUPPORT vector machines, RANDOM forest algorithms, WATER management, FORECASTING, ARTIFICIAL neural networks

Abstract

Reservoirs play an important function in human society due to their ability to hold and regulate the flow. This will play a key role in the future decades due to climate change. Therefore, having reliable predictions of the outflow from a reservoir is necessary for early warning systems and adequate water management. In this sense, this study uses three approaches machine learning (ML)-based techniques—Random Forest (RF), Support Vector Machine (SVM) and artificial neural network (ANN)—to predict outflow one day ahead of eight different dams belonging to the Miño-Sil Hydrographic Confederation (Galicia, Spain), using three input variables of the current day. Mostly, the results obtained showed that the suggested models work correctly in predicting reservoir outflow in normal conditions. Among the different ML approaches analyzed, ANN was the most appropriate technique since it was the one that provided the best model in five reservoirs. [ABSTRACT FROM AUTHOR]

Published

2023

14. Groundwater budgeting of Nari and Gaj formations and groundwater mapping of Karachi, Pakistan

Author

Muhammad Tayyab Sohail, Asrar Hussan, Muhsan Ehsan, Nadhir Al-Ansari, Malik Muhammad Akhter, Zaira Manzoor, and Ahmed Elbeltagi

Subjects

Groundwater budgeting, Groundwater mapping, Inflow, Outflow, Direct current electrical resistivity, Water supply for domestic and industrial purposes, TD201-500

Abstract

Abstract Groundwater depletion is an emerging problem worldwide due to changes in climate and an increase in urbanization. Two significant water-bearing formations, the Oligocene-aged Nari and the Miocene-aged Gaj, were utilized as a case study exposed near Karachi, Pakistan. Groundwater budgeting was performed through a classical equation. The inflow of groundwater in the formations was calculated by thermo-pluviometric data and water loss of Hub Dam. The potential of evapotranspiration (PET) was calculated by the Thornthwaite method. The groundwater inflow from Hub Dam was estimated by using 20 years of annual water loss data by removing PET. The total mean annual inflow of groundwater in the formations was 2414.12 US Gallons per Second (gps). The annual mean outflow was estimated by calculation of groundwater usage for industries and domestic purposes and the mean annual groundwater outflow was 5562.61 US gps and an annual deficit of groundwater was 3148.5 US gps. The research is composed of validating the groundwater budget. Direct Current Electrical Resistivity (DCER) and static water level data from existing industrial wells were used for groundwater maps. The DCER data indicates A-Type and K-Type sub-surface with high resistivity in the three-layer model. The average water table of residential areas in 2019 was 60 m and in industrial areas was 130 m. The oscillation of the groundwater table over the last 20 years and the deficit of the groundwater budget shows an alarming condition for the future. If the same scenario persists, then by 2025, the water table will decline up to 140 m.

Published

2022

15. Location of ureteral access sheath in the ureter. Does it affect the fluid flow in different calyces?

Author

Faria-Costa, Gabriel, Tsaturyan, Arman, Peteinaris, Angelis, Pagonis, Konstantinos, Faitatziadis, Solon, Gkeka, Kristiana, Natsos, Anastasios, Anaplioti, Irini, Obaidat, Mohammed, Vrettos, Theofanis, Liatsikos, Evangelos, and Kallidonis, Panagiotis

Subjects

URETER diseases, FLUID flow, URETEROSCOPY, PORCINE somatotropin, LITHOTRIPSY

Abstract

Introduction The aim of this study was to evaluate outflow variation in different locations of the pyelocaliceal system with the use of different ureteral access sheath (UAS) sizes and different UAS positioning. Material and methods The experimental setup included an anaesthetised porcine model, a 7.5-Fr ureteroscope with a 200-µm laser fibre inserted in the working channel, a hand-held pumping irrigating system, and UAS of different sizes, namely: 9.5/11.5 Fr, 12/14 Fr, and 14/16 Fr. Each UAS was placed just below the ureteropelvic junction (UPJ) or in the mid-ureter. The ureteroscope was placed in the renal pelvis, upper and lower calyces, and outflow measurements were obtained with 3-second interval pumping for one minute in every experimental setup. Results The UAS positioning in the mid-ureter was associated with significantly higher outflow rates in the lower calyx (p = 0.041). While the UAS was below the UPJ, we observed a trend of lower outflow rate in the lower calyx, which was completely inverted when the UAS was in the mid-ureter. Increasing the UAS size from 9.5/11.5 Fr to 12/14 Fr led to a significant increase in outflow in the renal pelvis and upper calyx (p = 0.007), but not in the lower calyx. A further increase to 14/16 Fr did not produce increased flow. Conclusions Different locations of the pyelocaliceal system have different fluid mechanics during fURS. In the renal pelvis and upper calyx increasing the diameter of the UAS improved the outflow, whereas in the lower calyx the position of the UAS seems to be the most relevant factor. These variables should be considered when performing fURS, especially with high-power laser lithotripsy. [ABSTRACT FROM AUTHOR]

Published

2023

16. Lateral Boundary Conditions for Complex Terrain Wind Simulations with Oblique Inflow Direction.

Author

Ma, Ting-Hsuan and Senocak, Inanc

Subjects

*INCOMPRESSIBLE flow, *CHANNEL flow, *CONSERVATION of mass, *FLOW simulations, *TURBULENCE

Abstract

Large-eddy simulation is a formidable method for predicting winds around complex terrain, but predictions can be highly dependent on the lateral boundary conditions used in the computations. When periodic boundary conditions are not an option because of terrain complexity, inflow and outflow boundary conditions must be adopted. A common practice in micro-scale wind simulations with incompressible flow solvers is to orient the terrain such that the incoming wind is always orthogonal to the inflow face and impose constant pressure outlet boundary conditions on a flat terrain far away from the region of interest. However, terrain reorientation becomes computationally expensive to ingest meandering winds as inflow. In the present work, we demonstrate shortcomings of this existing practice when oblique inflow angle is imposed at the inlet faces. To address these shortcomings, we pursue a Neumann-type pressure boundary condition at the outflow boundaries with a global mass conservation correction step on the momentum field. Additionally, we revise the so-called box perturbation method to generate evenly distributed turbulence at inlet faces with oblique inflow direction. We use the canonical channel flow, the Perdigão terrain, and the Askervein hill examples to demonstrate the effectiveness of our proposed fixes. The major benefits of our proposed approach are savings in computational cost due to the ability to use a smaller simulation domain and elimination of laborious terrain reorientation and tapering, and mesh generation steps for every new wind direction. We expect our approach to be beneficial, particularly, for model-chain approaches for arbitrarily complex terrain simulations. [ABSTRACT FROM AUTHOR]

Published

2023

17. Magnetic Signature and Element Content of Upflow and Outflow Hotspring in Arjuno-Welirang Geothermal System.

Author

Zulaikah, Siti, Damayanti, Cathlea Syafiera, Hafiz, Hapsoro, Cahyo Aji, Laksono, Yoyok Adisetio, Iswanto, Bambang Heru, Herrin, Jason Scott, and Hasan, Muhammad Fathur Rouf

Subjects

MAGNETIC susceptibility, HOT springs, MAGNETIC properties, SURFACE temperature, CHEMICAL properties, TRACE elements

Abstract

Research on magnetic properties and chemical element content of environmental deposits has been conducted for various purposes. This study focuses on characteristic magnetic susceptibility, magnetic mineral morphology, and the elemental composition of Cangar and Padusan hot springs in the Arjuno-Welirang geothermal system to differentiate upflow and outflow systems, respectively. The measurements were performed for better understand the relation between magnetic susceptibility, Fe-Silicate content, magnetic mineral morphology, surface temperature and compare these characteristics in two kinds of hot springs in the same mountain system. Magnetic susceptibility ranged (7.558 - 62.694) × 10-6 m³/kg with an average of 30.651 × 10-6 m³/kg for Cangar (upflow) and (11.821 - 28.101) × 10-6 m³/kg with an average of 18.148 × 10-6 m³/kg for Padusan (outflow). In situ magnetic minerals extracted of hot springs are averaged of magnetic susceptibility is 26.981 × 10-6 m³/kg for Cangar and 24.445 × 10-6 m³/kg for Padusan. The element content dominated by Al, Si, K, Ca, Ti and Fe, where Fe is more abundant in Cangar as an upflow. The higher magnetic susceptibility, the greater of Fe-silicate content in both of hot springs. The surface temperature ranged from 38 - 48°C, where the higher temperature, the magnetic susceptibility increased. In Cangar, extracted magnetic minerals tend show crystalline, especially hedralic shape with very fine surface, clean and free of impurities. Meanwhile, some magnetic minerals are also found in spherical shapes, especially in Padusan. [ABSTRACT FROM AUTHOR]

Published

2023

18. Studi Etnometodologi: Peengendalian Persediaan Beras Bulog

Author

Lupita Sari, Ayudia Sokarina, and Adhitya Bayu Suryantara

Subjects

Control, Inflow, Inventory, Outflow, Perum Bulog Regional Office NTB, Accounting. Bookkeeping, HF5601-5689, Business mathematics. Commercial arithmetic. Including tables, etc., HF5691-5716

Abstract

Purpose: This research aims to interpret rice inventory control by Perum Bulog Regional Office of NTB Methodology/approach: This research uses a qualitative approach with ethnomethodology method. Data collection techniques used observation and interviews. The informants in this study amounted to 4 people consisting of 2 warehouse weighers, 1 OPP implementation staff, and 1 quality management. Findings: The results of this study indicate that the control of rice inventory by Perum Bulog Regional Office of NTB consists of, entry flow, exit flow, and storage of rice quality maintenance in the warehouse. The flow of rice is carried out according to the order from the office in the form of SO (Sell Order) Form through the distribution of disaster relief rice reserves, distribution of class groups, movement activities, and distribution of supply availability and price stability (KPSH). In addition, the flow of rice in the Bulog Regional Office of NTB is carried out in accordance with orders from the office in the form of PO (Purchase Order) Forms through work units (Satker), partnership programs, and through grain and rice processing units (UP-GB). Control of rice inventory at Perum Bulog Regional Office of NTB is carried out in accordance with logistics orders to maintain inventory turnover at the price of government regulations. Practical and Theoretical contribution/Originality: Controlling rice inventory at Perum Bulog Regional Office of NTB using Ethnomethodology methods Research Limitation: It is difficult to arrange informants' schedules to conduct interviews due to many other jobs so that researchers have difficulty when obtaining data

Published

2023

19. An Event-Based Stochastic Parametric Rainfall Simulator (ESPRS) for Urban Stormwater Simulation and Performance in a Sponge City.

Author

Yang, Yuanyuan, Xu, Xiaoyan, and Liu, Dengfeng

Subjects

RAINFALL simulators, URBAN runoff management, DISTRIBUTION (Probability theory), RAIN gardens, RAINFALL, WATERSHEDS

Abstract

The temporal heterogeneity of rainfall is substantial in urban catchments, and it often has huge impacts on stormwater simulation and management. Using a design storm with a fixed pattern may cause uncertainties in hydrological modeling. Here, we propose an event-based stochastic parametric rainfall simulator (ESPRS) for stormwater simulation in a sponge city with green roofs, permeable pavements, and bioretention cells. In the ESPRS, we used five distributions to fit the measured rainfall events and evaluated their performance using Akaike's Information Criterion, Anderson—Darling goodness-of-fit test, and p-values. The vast rainfall time series data generated using the ESPRS were used to run the storm water management model for outflow simulations in the catchment, thus revealing the influence of temporal rainfall characteristics on the hydrological responses. The results showed the following: (1) The ESPRS outperforms the Chicago method in predicting extreme precipitation events, and its control factors are the rainfall peak period, rainfall peak fraction, and cumulative rainfall fraction at the peak period. (2) The best-fit functions for the rainfall depth in each period have different distributions, mostly being in lognormal, gamma, and generalized extreme value distributions. (3) Rear-type precipitation events with high peak fractions are the most negative pattern for outflow control. The developed ESPRS can suitably reproduce rainfall time series for urban stormwater management. [ABSTRACT FROM AUTHOR]

Published

2023

20. CHURN RATE MODELING FOR TELECOMMUNICATION OPERATORS USING DATA SCIENCE METHODS.

Author

Zatonatska, Tetiana, Fareniuk, Yana, and Shpyrko, Viktor

Subjects

*DATA science, *BUSINESS enterprises, *QUALITY of service, *PYTHON programming language, *SCIENTIFIC method, *MACHINE learning, TELECOMMUNICATION rates

Abstract

The telecommunication company functioned in the market with extremely high competitiveness. Attracting new customers needs 5-10 times more expenses than maintaining an existing one. As a result, effective customer churn management and analysis of the reasons for customer churn are vital tasks for telecommunication operators. As a result, predicting subscriber churn by switching on the competitors becomes very important. Data Science and machine learning create enormous opportunities for solving this task to evaluate customer satisfaction with company services, determine factors that cause disappointment, and forecast which clients are at a greater risk of abandoning and changing services suppliers. A company that implements data analysis and modelling to develop customer churn prediction models has an opportunity to improve customer churn management and increase business results. The purposes of the research are the application of machine learning models for a telecommunications company, in particular, the construction of models for predicting the user churn rate and proving that Data Science models and machine learning are high-quality and effective tools for solving the tasks of forecasting the key marketing metrics of a telecommunications company. Based on the example of Telco, the article contains the results of the implementation of various models for classification, such as logistic regression, Random Forest, SVM, and XGBoost, using Python programming language. All models are characterised by high quality (the general accuracy is over 80%). So, the paper demonstrates the feasibility and possibility of implementing the model to classify customers in the future to anticipate subscriber churn (clients who may abandon the company's services) and minimise consumer outflow based on this. The main factors influencing customer churn are established, which is basic information for further forecasting client outflow. Customer outflow prediction models implementation will help to reduce customer churn and maintain their loyalty. The research results can be useful for optimising marketing activity of managing the outflow of consumers of companies on the telecommunication market by developing effective decisions based on data and improving the mathematical methodology of forecasting the outflow of consumers. Therefore, the study's main theoretical and practical achievements are to develop an efficient forecasting tool for enterprises to control outflow risks and to enrich the research on data analysis and Data Science methodology to identify essential factors that determine the propensity of customers to churn. [ABSTRACT FROM AUTHOR]

Published

2023

21. Transition of latitudinal differential rotation as a possible cause of weakened magnetic braking of solar-type stars.

Author

Tokuno, Takato, Suzuki, Takeru K, and Shoda, Munehito

Subjects

*STELLAR rotation, *ROTATIONAL motion, *STELLAR evolution, *LONG-Term Evolution (Telecommunications), *SOLAR cycle, ROTATION of the Sun

Abstract

We investigate the role of latitudinal differential rotation (DR) in the spin evolution of solar-type stars. Recent asteroseismic observation detected the strong equator-fast DR in some solar-type stars. Numerical simulations show that the strong equator-fast DR is a typical feature of young fast-rotating stars and that this tendency is gradually reduced with stellar age. Incorporating these properties, we develop a model for the long-term evolution of stellar rotation. The magnetic braking is assumed to be regulated dominantly by the rotation rate in the low-latitude region. Therefore, in our model, stars with the equator-fast DR spin down more efficiently than those with the rigid-body rotation. We calculate the evolution of stellar rotation in ranges of stellar mass, |$0.9 \, \mathrm{M}_{\odot } \le M \le 1.2\, \mathrm{M}_{\odot }$|⁠ , and metallicity, |$0.5\, \mathrm{Z}_{\odot } \le Z \le 2\, \mathrm{Z}_{\odot }$|⁠ , where M⊙ and Z⊙ are the solar mass and metallicity, respectively. Our model, using the observed torque in the present solar wind, nicely explains both the current solar rotation and the average trend of the rotation of solar-type stars, including the dependence on metallicity. In addition, our model naturally reproduces the observed trend of the weakened magnetic braking in old slowly rotating solar-type stars because strong equator-fast DR becomes reduced. Our results indicate that latitudinal DR and its transition are essential factors that control the stellar spin down. [ABSTRACT FROM AUTHOR]

Published

2023

22. USE OF ARTIFICIAL NEURAL NETWORKS FOR MODELING INFLOW AND OUTFLOW AND SALINITY OF LAKE FETZARA IN THE REGION-ANNABA (NE ALGERIA)

Author

Zahra BOUHALI, Larbi DJABRI, Hamza BOUGUERRA, Fatma TRABELSI, Azzedine HANI, and Hicham CHAFFAI

Subjects

outflow, drainage, salinity, oued, water table, artificial neural network, inflow, Food processing and manufacture, TP368-456

Abstract

Lake Fetzara is one of the important lakes in the northeast of Algeria; the water supplying this lake comes from different precipitation and wadis. Moreover, Meboudja wadi constitutes the drainage channel. The water of the lake and the underlying groundwater is exposed to excessive overuse; which seriously threatens the hydrological and ecological balance. The overexploitation is explained by the increase in water mineralization, which poses a risk of soil salinization. To this end, this article deals with the subject of current salinity and predict its evolution over time by means of the modeling of the artificial neural network (ANN), according to the period of low water and the period of high water. The ANN were trained using three different algorithms: the Scaled Conjugate Gradient back propagation (SCG) algorithm and One Step Secant back propagation (OSS) algorithm and Quasi-Newton algorithm (BFGS). The performance results indicate that the three algorithms provided satisfactory simulations according to the determination coefficient (R2) and the performance criteria of the mean square error (RMSE), with priority to the BFGS algorithm; where the coefficient of determination using the BFGS algorithm varies between 69.5% and 95.3%. The BFGS method presents better results in order to design appropriate institutional mechanisms, capable of leading to the protection of the quality of these resources essential to the promotion of sustainable development.

Published

2022

23. From the Region Attracting to the Region Pushing Out the Population (on the Example of the Silesian Voivodeship)

Author

Rakowski Witold

Subjects

inflow, outflow, net migration, migration efficiency, silesian voivodeship, r23, Regional economics. Space in economics, HT388, Economics as a science, HB71-74

Abstract

Subject and purpose of work: The subject of the research is the Silesian Voivodeship, identified with the region which, almost until the end of the 20th century, was characterized by a positive balance of population migration in interregional flows. Since 1999, it has become a runoff area. The aim of the article is to present the size of the links in terms of permanent migration of the Silesian region population with other voivodeships and the resulting demographic losses that this region has suffered over 20 years.

Published

2022

24. Scenario optimization of water supplement and outflow management in Yilong Lake based on the EFDC model

Author

Tao Wu, Baolin Su, Huaxin Wu, Shengrui Wang, Guoqiang Wang, Harsha Ratnaweera, S. B. Weerakoon, Zhibin Zhang, and Bo Yao

Subjects

efdc, flow field, hydrodynamic, outflow, water level management, yilong lake, River, lake, and water-supply engineering (General), TC401-506, Physical geography, GB3-5030

Abstract

To address the problem of poor hydrodynamic conditions in Yilong Lake and to meet the water quality standards, the EFDC model was applied to propose an optimization plan for water supplement and outflow management of Yilong Lake. The model explores the impact of wind forcing, water supplement from external watersheds, outflow management and setting up an enclosure in the lake on the hydrodynamics in Yilong Lake. The results show that (1) the overall velocity of the water body of Yilong Lake is relatively slow, 90% of the area is lower than 0.01 m s−1, the central and eastern areas are faster and the western is slower. During the dry period and the wet periods of the year, improves the flow velocity of the water body in 90% of the area is increased by 80% compared to no wind velocity; (2) the increase in the amount of water supplement is significant for the improvement of the hydrodynamic conditions of water body; the water supplement volume at the two water supplement points of Mafangwan is conducive to improving the hydrodynamic conditions. If the total water supplement volume is increased by 10 million cubic meters per year which corresponds to water supplement volume increases at the Pubu and the Mafangwan by 33 and 35%, respectively, then water area with flow velocity greater than 0.007 m can be increased to 70%; (3) based on the demand for water quality, the water level management curves for different seasons are designed. It should be dominated by the eastern outflow, during the spring, coordinated by the southern and eastern outflows during the summer, and should be dominated by the southern outflow during the autumn and winter period. HIGHLIGHTS The hydrodynamics of Yilong Lake are analyzed comprehensively.; Water level, temperature and flow field are important factors.; Hydrodynamic conditions are better in winter than in summer.; Water supplement can significantly improve the hydrodynamic conditions of Yilong Lake.; Formed the outflow management opinion.;

Published

2022

25. Quantification of soil nutrient balance and stock on smallholder farms at Agew Mariam watershed in northern Ethiopia

Author

Tilahun Esubalew, Tadele Amare, and Eyayu Molla

Subjects

Barley, Inflow, Nutrient balance, Outflow, Stock, Tef, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Soil fertility has been declining in many parts of Ethiopia, moreover limits agricultural production, sustainability and food security. Nutrient balance is used to evaluate the state of soil fertility, rate of nutrient depletion, sustainability of land productivity, as well as to take the appropriate management decisions. This study was conducted to quantify soil nutrient balance and stocks on smallholder farms at Agew Mariam watershed, in northern Ethiopia in the 2020/21 season. The inflows-outflows of NPK into, and out of barley, tef, and wheat farms were determined through, field measurement, laboratory analysis and interviews. The nutrient balance in each crop was quantified by subtracting nutrient outputs from the inputs. The N partial balance of barley, tef and wheat was −66, −9.8, and −50.7 kg ha−1 yr−1fields, respectively. The P balance was also −5.9, 0.9, and −2.6 kg ha−1 yr−1 for barley, tef, and wheat fields, respectively. The K balance was −12.3, −3.2, and −5.4 kg ha−1 yr−1 in barley, tef, and wheat fields, respectively. The analysis revealed that N, P, and K had negative values except for P in tef. The stock of N was 1295, 1510, and 1240 in barley, tef, and wheat kg ha−1fields, respectively. The P stock was 63, 18.7, and 27.5 kg ha−1 in barley, tef, and wheat farms, respectively. Similarly, K stock was 1092.7, 1059.4, and 1090.6 kg ha−1 in barley, tef, and wheat cropping systems, respectively. Reversing the imbalance between inflows and outflows via adding organic and inorganic fertilizer is essential for barley, tef, and wheat cropping systems in the study area.

Published

2023

26. Fluorescein Aqueous Angiography in Live Normal Human Eyes

Author

Huang, Alex S, Penteado, Rafaella C, Saha, Sajib K, Do, Jiun L, Ngai, Philip, Hu, Zhihong, and Weinreb, Robert N

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Bioengineering, Clinical Research, Biomedical Imaging, Eye Disease and Disorders of Vision, Eye, Aged, Aged, 80 and over, Aqueous Humor, Cataract Extraction, Female, Fluorescein, Fluorescein Angiography, Humans, Male, Middle Aged, Tomography, Optical Coherence, glaucoma, outflow, angiography, aqueous humor, Clinical Sciences, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeTo evaluate aqueous humor outflow (AHO) in intact eyes of live human subjects during cataract surgery using fluorescein aqueous angiography.MethodsAqueous angiography was performed in 8 live human subjects (56 to 86 y old; 2 men and 6 women). After anesthesia, fluorescein (2%) was introduced into the eye [either alone or after indocyanine green (ICG; 0.4%)] from a sterile, gravity-driven constant-pressure reservoir. Aqueous angiographic images were obtained with a Spectralis HRA+OCT and FLEX module (Heidelberg Engineering). Using the same device, anterior-segment optical coherence tomography (OCT) and infrared images were also concurrently taken with aqueous angiography.ResultsFluorescein aqueous angiography in the live human eye showed segmental AHO patterns. Initial angiographic signal was seen on average by 14.0±3.0 seconds (mean±SE). Using multimodal imaging, angiographically positive signal colocalized with episcleral veins (infrared imaging) and intrascleral lumens (anterior-segment OCT). Sequential aqueous angiography with ICG followed by fluorescein showed similar segmental angiographic patterns.DiscussionFluorescein aqueous angiography in live humans was similar to that reported in nonhuman primates and to ICG aqueous angiography in live humans. As segmental patterns with sequential angiography using ICG followed by fluorescein were similar, these tracers can now be used sequentially, before and after trabecular outflow interventions, to assess their effects on AHO in live human subjects.

Published

2018

27. Groundwater budgeting of Nari and Gaj formations and groundwater mapping of Karachi, Pakistan.

Author

Sohail, Muhammad Tayyab, Hussan, Asrar, Ehsan, Muhsan, Al-Ansari, Nadhir, Akhter, Malik Muhammad, Manzoor, Zaira, and Elbeltagi, Ahmed

Subjects

GROUNDWATER, WATER table, BUDGET deficits, AQUIFERS, ELECTRICAL resistivity, DEFICIT irrigation

Abstract

Groundwater depletion is an emerging problem worldwide due to changes in climate and an increase in urbanization. Two significant water-bearing formations, the Oligocene-aged Nari and the Miocene-aged Gaj, were utilized as a case study exposed near Karachi, Pakistan. Groundwater budgeting was performed through a classical equation. The inflow of groundwater in the formations was calculated by thermo-pluviometric data and water loss of Hub Dam. The potential of evapotranspiration (PET) was calculated by the Thornthwaite method. The groundwater inflow from Hub Dam was estimated by using 20 years of annual water loss data by removing PET. The total mean annual inflow of groundwater in the formations was 2414.12 US Gallons per Second (gps). The annual mean outflow was estimated by calculation of groundwater usage for industries and domestic purposes and the mean annual groundwater outflow was 5562.61 US gps and an annual deficit of groundwater was 3148.5 US gps. The research is composed of validating the groundwater budget. Direct Current Electrical Resistivity (DCER) and static water level data from existing industrial wells were used for groundwater maps. The DCER data indicates A-Type and K-Type sub-surface with high resistivity in the three-layer model. The average water table of residential areas in 2019 was 60 m and in industrial areas was 130 m. The oscillation of the groundwater table over the last 20 years and the deficit of the groundwater budget shows an alarming condition for the future. If the same scenario persists, then by 2025, the water table will decline up to 140 m. [ABSTRACT FROM AUTHOR]

Published

2022

28. Historic Variability of the Water Inflow to the Lazaro Cardenas Dam and Water Allocation in the Irrigation District 017, Comarca Lagunera, Mexico.

Author

Villanueva-Díaz, José, Estrada-Ávalos, Juan, Martínez-Sifuentes, Aldo Rafael, Correa-Díaz, Arian, Meko, David M., Castruita-Esparza, Luis Ubaldo, and Cerano-Paredes, Julián

Subjects

IRRIGATION water, WATER rights, CLIMATE extremes, IRRIGATION, DROUGHTS, IRRIGATION farming, SOUTHERN oscillation, IRRIGATION management

Abstract

An assemblage of tree-ring chronologies for the Nazas (NZW) in the Western Sierra Madre (WSM), Mexico was developed to determine water inflow at the Lazaro Cardenas Dam (LCD), the main source of water for surface irrigation in the Irrigation District 017 (DDR 017), Comarca Lagunera. A Principal Component Analysis of the ring-width chronologies was conducted to determine a common climate signal, and a stepwise model based on selected chronologies of the PC1 (CBA, COC) and PC2 (ARN) were used to develop a water inflow reconstruction to the Lazaro Cardenas Dam (LCD) extending from 1753 to 2003 (251 years), resulting in the following significant findings: the warm phase of the El Niño Southern Oscillation (ENSO) in the winter-spring season had a significant influence (SOI; Dec–Feb = −0.24, p < 0.01), but the North American Monsoon System (NAMS) was the most important in determining the water yield in the summer season (r = 0.48, p < 0.01). Water gauge inflow records (77 years) at the LCD used to determine the annual allocation of water for agriculture in the irrigation district 017 was an average of 1676 × 106 m3, where the maximum annual water outflow allowed of 1100 × 106 m3 for safety reasons, the dam infrastructure was released in 74% of the years and increasing to 78% when considering the reconstructed inflow. Prolonged drought episodes lasting more than 10 consecutive years were detected in the reconstructed inflow, information that could be used by decision makers to establish proper irrigation management strategies to ameliorate the economic and social impact when these extreme hydroclimatic events may occur. [ABSTRACT FROM AUTHOR]

Published

2022

29. The spectral analysis and study of GRB 120709A, a burst with three distinct emission episodes.

Author

Bukhari, Syed Ali Mohsin, Sajjad, Saeeda, and Murtaza, Urooj

Subjects

*GAMMA ray bursts, *LIGHT curves, *SPECTRUM analysis

Abstract

The reason for quiescent intervals and isolated emission episodes in gamma-ray burst (GRB) light curves is still not well understood. Probing these questions further requires the study of the spectral characteristics and properties of the outflow of such GRBs. GRB 120709A is a burst with three distinct emission episodes, separated by quiescent periods lasting several seconds. The episodes are comparable with each other in terms of peak flux and duration. The GRB was observed by the Fermi LAT and GBM instruments, covering over six orders of magnitude of energy. In this work, we carry out the time-integrated and time-resolved spectral analysis of GRB 120709A. We use these results to study the temporal variation of its parameters. In particular, we find that the peak energy of the spectrum of each episode traces the flux of those episodes. We also study and parameterise the correlation between the isotropic luminosity and intrinsic peak energy. Finally, we determine the parameters of the outflow based on gamma-gamma opacity calculations. We find that if we require the MeV emission to occur above the photosphere, then the ratio of the GeV and MeV emission radii can not be greater than ∼ 1.2. This implies an internal origin of the GeV emission. This also allows us to estimate the average value of the Lorentz factor to be in the ∼ 100–200 range. We also evaluate the photospheric and MeV emission radii and find them to be in the (4.5–5.3) × 10 12 cm and (2.1–5.2) × 10 14 cm ranges, respectively. We note the limitations of this exercise due to the relative faintness of the GRB which prevents us from doing a very fine time-resolved analysis or fitting the spectra with multi-component models. We also discuss GRB 120709A in the context of models for distinct emission episodes and quiescent intervals. [ABSTRACT FROM AUTHOR]

Published

2022

30. Simulation of Poyang Lake water levels and outflow under historical extreme hydrological scenarios.

Author

Yu, Meixiu, Liu, Xiaolong, Wood, Paul, Wei, Li, Wang, Guoqing, Zhang, Jianyun, and Li, Qiongfang

Subjects

WATER levels, EFFECT of human beings on climate change, BODIES of water, LAKES, WATERSHEDS

Abstract

Due to an intensification of anthropogenic activities and climate change in recent decades, the hydrological connections and relationships between rivers and lakes have been significantly modified globally. Poyang Lake is one of the largest freshwater lakes globally and is one of the few that remain naturally connected to the Yangtze River. To investigate the full hydrological conditions (extreme high and low discharge) of Poyang Lake outflow under current bathymetric conditions, a large‐scale 1D‐ and 2D‐coupled high‐resolution hydrodynamic model of the Poyang Lake basin–Yangtze River system was developed. We simulated the outflow and water levels of Poyang Lake under nine different extreme hydrological scenarios with high precision and computational efficiency. We propose (1) a novel partition calibration method to characterize the roughness coefficient of large water bodies in complicated geographical terrain both for wet and dry seasons; (2) a new method for setting initial conditions for hydrodynamic simulation of large water bodies subject to strong hydrological regulation. Results indicated that (1) maximum outflow and water levels will reach 37,200 m3/s and 22.28 m when Poyang Lake basin floodwater coincides with flooding on the Yangtze River; (2) precipitation over the lake has increased outflow but this has had very limited influence on its changing hydrological pattern; (3) the effect of hydrological conditions within the system differs for both the lake outflow and water level. The research provides important reference conditions for the application of the InfoWorks ICM model in future applications and studies of large river–lake systems. [ABSTRACT FROM AUTHOR]

Published

2022

31. Spatio-temporal variations in water quality of a river–lake system during restoration treatments.

Author

Rosińska, Joanna, Rybak, Michał, Kowalczewska-Madura, Katarzyna, Dondajewska-Pielka, Renata, Kozak, Anna, and Gołdyn, Ryszard

Subjects

LAKE restoration, WATER quality, SPATIO-temporal variation, BODIES of water, SUSPENDED solids, WATER quality monitoring

Abstract

To fill the knowledge gap about the functioning of the lake–river system subjected to restoration treatments, two tributaries, a shallow, restored lake and its outflow, were examined. The quality of water inflows, lake and outflow was compared before (BR), during sustainable (SR, deep water aeration, phosphorus inactivation and biomanipulation for 3 years) and limited lake restoration (LR, only aeration for 2 years). Physico-chemical parameters were analysed monthly at five stations. The nutrient concentrations at the inflows decreased over the years due to the improvement of water and sewage management in the catchment (in Mielcuch from 18.0 to 8.0 mgN L−1 and 1.0 to 0.6 mgP L−1). The decline at the outflow was the result of a better quality of water at the tributaries and SR in the lake. During LR, decrease of phosphorus concentration still occurred (0.11 mgP L−1), but nitrogen concentration slightly increased (3.9 mgN L−1). Although the outflowing waters still transported a high content of chlorophyll a and suspended solids during SR, their amount was lower (34.5 μg L−1 and 17 mg L−1, respectively) than that during BR and LR. During restoration, it is significant to monitor the water quality not only in the lake but also at the outflow. The slow deterioration of water quality at the outflow indicated that introducing changes in the applied restoration methods must be done carefully because the previously achieved effect may be lost. Hence, restoration of the upstream lake and good quality of its tributaries are of great importance for water bodies located downstream. [ABSTRACT FROM AUTHOR]

Published

2022

32. Simulation of Poyang Lake water levels and outflow under historical extreme hydrological scenarios

Author

Meixiu Yu, Xiaolong Liu, Paul Wood, Li Wei, Guoqing Wang, Jianyun Zhang, and Qiongfang Li

Subjects

flood and drought, hydrodynamic model, outflow, Poyang Lake, rainfall, Yangtze River, River protective works. Regulation. Flood control, TC530-537, Disasters and engineering, TA495

Abstract

Abstract Due to an intensification of anthropogenic activities and climate change in recent decades, the hydrological connections and relationships between rivers and lakes have been significantly modified globally. Poyang Lake is one of the largest freshwater lakes globally and is one of the few that remain naturally connected to the Yangtze River. To investigate the full hydrological conditions (extreme high and low discharge) of Poyang Lake outflow under current bathymetric conditions, a large‐scale 1D‐ and 2D‐coupled high‐resolution hydrodynamic model of the Poyang Lake basin–Yangtze River system was developed. We simulated the outflow and water levels of Poyang Lake under nine different extreme hydrological scenarios with high precision and computational efficiency. We propose (1) a novel partition calibration method to characterize the roughness coefficient of large water bodies in complicated geographical terrain both for wet and dry seasons; (2) a new method for setting initial conditions for hydrodynamic simulation of large water bodies subject to strong hydrological regulation. Results indicated that (1) maximum outflow and water levels will reach 37,200 m3/s and 22.28 m when Poyang Lake basin floodwater coincides with flooding on the Yangtze River; (2) precipitation over the lake has increased outflow but this has had very limited influence on its changing hydrological pattern; (3) the effect of hydrological conditions within the system differs for both the lake outflow and water level. The research provides important reference conditions for the application of the InfoWorks ICM model in future applications and studies of large river–lake systems.

Published

2022

33. Rural population of Kazakhstan: demographics, statistics and trends

Author

Zh.Zh. Belgibayeva, T.S. Sokira, and А.А. Belgibayev

Subjects

rural population, demography, migration, outflow, labor resources., Economics as a science, HB71-74, Marketing. Distribution of products, HF5410-5417.5, Finance, HG1-9999, Accounting. Bookkeeping, HF5601-5689

Abstract

The article considers the problems of aggravation of the demographic situation in rural areas, caused on the one hand by the mechanical outflow of the able-bodied population and, on the other hand, by natural decline in fertility and relatively short life expectancy. Meanwhile, Kazakhstan has adopted a state program for the development of the agro-industrial complex for 2017 – 2021 years. Agriculture, as the core of the agro-industrial complex, has important tasks to ensure the physical and economic accessibility of food to the general population, increase the efficiency of the use of natural resources, develop agricultural science and transfer of technologies, introduce digital technologies and improve the quality of life of the rural population. Declining demographic potential in rural areas in the future may adversely affect the rate of reproduction of the population as a whole, the state and even the degradation of rural areas. The purpose of the article is not only a statistical analysis of the rate of reproduction of the rural population, a study of the demographic situation in rural areas, but also the justification of a set of measures to prevent demographic threats, solve the problem of food security, and sustainable social and economic development of rural areas. To achieve the goal, dialectical, historical, statistical-economic, comparative methods were used. Authors allocate the labor capacity of rural territories as a major factor of ensuring competitiveness of the rural area, the region and the country in general.

Published

2021

34. Optimal Flood-Control Operation of Cascade Reservoirs Using an Improved Particle Swarm Optimization Algorithm.

Author

Diao, Yanfang, Ma, Haoran, Wang, Hao, Wang, Junnuo, Li, Shuxian, Li, Xinyu, Pan, Jieyu, and Qiu, Qingtai

Subjects

PARTICLE swarm optimization, FLOOD control, SIMULATED annealing, MATHEMATICAL optimization, BOLTZMANN'S equation, WATER levels

Abstract

Optimal reservoir operation is an important measure for ensuring flood-control safety and reducing disaster losses. The standard particle swarm optimization (PSO) algorithm can find the optimal solution of the problem by updating its position and speed, but it is easy to fall into a local optimum. In order to prevent the problem of precocious convergence, a novel simulated annealing particle swarm optimization (SAPSO) algorithm was proposed in this study, in which the Boltzmann equation from the simulated annealing algorithm was incorporated into the iterative process of the PSO algorithm. Within the maximum flood peak reduction criterion, the SAPSO algorithm was used into two floods in the Tianzhuang–Bashan cascade reservoir system. The results shown that: (1) There are lower maximum outflows. The maximum outflows of Tianzhuang reservoir using SAPSO algorithm decreased by 9.3% and 8.6%, respectively, compared with the measured values, and those of Bashan reservoir decreased by 18.5% and 13.5%, respectively; (2) there are also lower maximum water levels. The maximum water levels of Tianzhuang reservoir were 0.39 m and 0.45 m lower than the measured values, respectively, and those of Bashan reservoir were 0.06 m and 0.46 m lower, respectively; and (3) from the convergence processes, the SAPSO algorithm reduced the convergence speed in the early stage of convergence and provided a superior objective function value than PSO algorithm. At the same time, by comparing with GA algorithm, the performance and applicability of SAPSO algorithm in flood operation are discussed further. Thus, the optimal operation model and SAPSO algorithm proposed in this study provide a new approach to realizing the optimal flood-control operation of cascade reservoir systems. [ABSTRACT FROM AUTHOR]

Published

2022

35. USE OF ARTIFICIAL NEURAL NETWORKS FOR MODELING INFLOW AND OUTFLOW AND SALINITY OF LAKE FETZARA IN THE REGION-ANNABA (NE ALGERIA).

Author

BOUHALI, Zahra, DJABRI, Larbi, BOUGUERRA, Hamza, TRABELSI, Fatma, HANI, Azzedine, and CHAFFAI, Hicham

Subjects

*ARTIFICIAL neural networks, *BACK propagation, *SOIL salinization, *SALINITY, *WATER supply, *SOIL salinity

Abstract

Lake Fetzara is one of the important lakes in the northeast of Algeria; the water supplying this lake comes from different precipitation and wadis. Moreover, Meboudja wadi constitutes the drainage channel. The water of the lake and the underlying groundwater is exposed to excessive overuse; which seriously threatens the hydrological and ecological balance. The overexploitation is explained by the increase in water mineralization, which poses a risk of soil salinization. To this end, this article deals with the subject of current salinity and predict its evolution over time by means of the modeling of the artificial neural network (ANN), according to the period of low water and the period of high water. The ANN were trained using three different algorithms: the Scaled Conjugate Gradient back propagation (SCG) algorithm and One Step Secant back propagation (OSS) algorithm and Quasi-Newton algorithm (BFGS). The performance results indicate that the three algorithms provided satisfactory simulations according to the determination coefficient (R² ) and the performance criteria of the mean square error (RMSE), with priority to the BFGS algorithm; where the coefficient of determination using the BFGS algorithm varies between 69.5% and 95.3%. The BFGS method presents better results in order to design appropriate institutional mechanisms, capable of leading to the protection of the quality of these resources essential to the promotion of sustainable development. [ABSTRACT FROM AUTHOR]

Published

2022

36. FROM THE REGION ATTRACTING TO THE REGION PUSHING OUT THE POPULATION (ON THE EXAMPLE OF THE SILESIAN VOIVODESHIP).

Author

Rakowski, Witold

Subjects

EMIGRATION & immigration, STAGNATION (Economics), UNEMPLOYMENT statistics, INTERREGIONALISM

Abstract

Copyright of Economic & Regional Studies/Studia Ekonomiczne i Regionalne is the property of Sciendo and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

37. Evaluasi Pola Operasi Waduk Tamblang di Kabupaten Buleleng Provinsi Bali

Author

Mawiti Infantri Yekti, Tjokorda Gde Raka Wijakesuma, and Kadek Diana Harmayani

Subjects

air baku, air irigasi, inflow, outflow, simulasi operasi waduk tamblang, Hydraulic engineering, TC1-978

Abstract

Bendungan Tamblang dibangun untuk memenuhi kebutuhan irigasi dan air baku di Kecamatan Sawan dan Kecamatan Kubutamban Kabupaten Buleleng. Waduk ini berada di aliran Sungai Tukad Daya dan direncanakan mempunyai total tampungan sebesar 6,137,228 m3 sedangkan tampungan waduk efektif sebesar 4,199,646 m3. Fungsi Waduk Tamblang adalah untuk irigasi sebesar 584 ha serta penyediaan air baku sebesar 306 liter/detik. Simulasi operasi Waduk Tamblang menggunakan alternatif debit andalan 80% dan 90%. Data pendukung berupa data curah hujan harian, data debit permukaan aliran Sungai Tukad Daya dan data klimatologi dianalisis untuk mengetahui curah hujan andalan R50 dan R80, debit andalan, evapotranspirasi potensial, curah hujan efektif, kebutuhan air irigasi (KAI), serta kebutuhan air baku pada Kecamatan Sawan dan Kecamatan Kubutambahan. Operasi waduk disimulasikan ke dalam lima alternatif dengan keandalan inflow Q80 dan Q90. Hasil simulasi operasi Waduk Tamblang terjadi surplus pada simulasi alternatif 4 dan alternatif 5. Pola tanam alternatif 4 yaitu padi-jagung-kacang tanah dan alternatif 5 yaitu padi-buncis-bawang-kedelai dan ini sudah disesuaikan pada pola tanam eksisting. Hasil simulasi alternatif 4 dan 5 ini dapat memenuhi kebutuhan air baku dan air irigasi dengan persentase terlayani 100%.

Published

2020

38. Outflow Through Aortic Side Branches Drives False Lumen Patency in Type B Aortic Dissection

Author

Gerlinde Logghe, Bram Trachet, Patrick Segers, Julie De Backer, Joscha Mulorz, Philip Dueppers, Frank Vermassen, Hubert Schelzig, Isabelle Van Herzeele, and Markus U. Wagenhäuser

Subjects

aortic dissection, minor branches, outflow, patency, TEVAR, false lumen, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Objective: Thoracic endovascular aortic repair (TEVAR) for type B aortic dissection (TBAD) aims to induce false lumen (FL) thrombosis by sealing intimal tears between the true (TL) and the FL, and blocking the inflow into the FL. Incomplete thrombosis of the FL is correlated with poor clinical outcome. We hypothesize that the number of major and minor branches arising from the FL affects FL patency and may negatively influence TEVAR induced FL thrombosis.Methods: Computed tomography (CT)-scans from 89 patients diagnosed with TBAD [best medical treatment (BMT) n = 52, TEVAR n = 37] from two high-volume vascular surgery centers were analyzed retrospectively. Analysis included evaluation of the FL patency status, the number, location and size of intimal tears, and the presence of minor and major side branches originating from the FL. Multiple regression analysis was conducted to evaluate obtained parameters as predictors for FL thrombosis status.Results: In univariate analysis, the strongest correlation for FL patency was found for the number of major (R = 0.79) and minor (R = 0.86) side branches originating from the FL. When applying a multiple linear regression model, the number of major (normalized beta 0.37; P < 0.001) and minor (normalized beta 0.41; P < 0.01) side branches arising from the FL were valid predictors for the axial length of the patent and non-patent FL, and additionally determined the length of the patent FL at 12-month follow-up in patients that underwent TEVAR.Conclusions: Our data suggest that the number of minor side branches that originate from the FL in TBAD is an important determinant of FL patency, to a greater degree than previously assumed.

Published

2021

39. Prosthetic versus native artery inflow for infrainguinal bypass.

Author

Russo, Nicholas J., Pokuri, Sreekrishna, Yeh, Chin-Chin, Hnath, Jeffrey, Chang, Benjamin B., and Darling III, R. Clement

Abstract

Infrainguinal bypass performed after previous prosthetic inflow reconstruction offers a choice of where to perform the proximal anastomosis. The hood of a previous inflow bypass might be technically easier to isolate during reoperative surgery. However, the more distal native artery might offer better patency to the outflow revascularization. The purpose of the present study was to compare the outcomes of infrainguinal bypass using the hood of a previous inflow bypass vs the native artery as the inflow source. A single vascular group's database was queried for all cases of infrainguinal bypass performed after previous prosthetic inflow bypass to a femoral artery from January 2006 to December 2016. The demographics, indications, operative details, and long-term results were recorded and analyzed. Two groups were compared stratified by the location of the proximal anastomosis for the distal bypass. In one group, the inflow source for the distal bypass was from the hood of a previous inflow graft (prosthetic). In the second group, the distal native arterial tree was used as the inflow source. A subset analysis of the patency of the distal bypass was also performed between the two groups for those in which the previous inflow reconstruction had become occluded. Patency was calculated using the Kaplan-Meier method. A total of 197 patients had undergone infrainguinal bypass after previous inflow bypass from 2006 to 2016. Of the 197 procedures, 59 (30%) had used the hood of the previous bypass as the inflow source (prosthetic group) and 138 (70%) had used the native artery distal to the hood of the inflow bypass as the inflow source (native group). The indications were similar between the two groups. The two groups had a similar proportion of men and a similar incidence of hypertension, hyperlipidemia, coronary artery disease, tobacco use, and renal disease. The previous inflow procedures were also similar between the two groups. The native artery used for the inflow source in the native group was the profunda femoris in 80 (58%), common femoral artery in 51 (37%), and superficial femoral artery in 7 (5.1%). Patency was significantly greater for the native group at 1 year (91% vs 75%; P =.0221). Also, the patency after inflow bypass occlusion significantly favored the native group at 1 year (87% vs 40%; P =.0035). Infrainguinal bypass performed after previous ipsilateral inflow bypass offers the option of using the hood of the bypass or a native artery as the inflow source. The present study demonstrated greater patency rates when using the distal native artery as the inflow source. The native artery option also offered continued patency when the inflow bypass occluded. [ABSTRACT FROM AUTHOR]

Published

2021

40. Trends in FDI Movement of New Zealand Economy over the Last Two Decades: An Analysis

Author

Ershad Ali and Ronica Joyce Adriano

Subjects

inflow, foreign direct investment, globalization, new zealand, outflow, Business, HF5001-6182, Economics as a science, HB71-74

Abstract

Foreign Direct Investment has been the main source of capital for New Zealand economy during the last two decades. This paper analyses how FDI had changed the New Zealand economy over the years as a response to worldwide globalization. The study focuses on the background of the country’s inflow and outflow of FDI, its implications to the current period and the reasons why the country had experience certain challenges. It also covers how the economy was able to overcome the challenges. The study found that New Zealand, being a small economy compared to the world, has overcome the globalized economic challenges by its efficient management and appropriate policy. Findings of the study might be of interest for researchers, policy makers and economists.

Published

2019

41. RESERVOIR HYDROLOGIC ROUTING FOR THE HYDRODYNAMIC OF AL-MANZALA LAKE, EGYPT.

Author

Elshinnawy, Ibrahim A. and Almaliki, Abdulrazak H.

Subjects

SEA level, FLOOD routing, SUBGLACIAL lakes, LAKES, WATER levels, WATER supply, SEAWATER

Abstract

Al-Manzala lake receives most of the agricultural drainage water of the east Nile Delta region in Egypt. As a consequence, hydrological status of the lake has been changed due to this process. Accordingly, knowing the interaction between Mediterranean Sea water and lake's water was desired. Under these circumstances, reservoir hydrologic routing procedure was implemented to investigate the lake's hydrodynamic. In this context, the lake hydrodynamic is represented by water level and flow direction. To implement the flood routing process, meteorological data and lake's water resources were investigated, collected, and analyzed. The study developed an auxiliary diagram that relates storage change within the lake and outflow to the sea. Reservoir hydrologic routing results estimated lake's water level, outflow, and storage change in the lake for the study period. In addition, an inflow-outflow hydrograph was developed. Furthermore, the water budget of the lake was investigated. Results analysis indicated that water level fluctuates between 17.5 and 56 cm with an average value of 37 cm above mean sea level. This fluctuation maintains a continuous flow from the lake to the sea. In addition, water budget results defined evaporation losses (27.8%), outflow (64.5%), and change in storage (7.7%). It is recommended to study the effect of climate change induced sealevel rise and the Mediterranean Sea tide on the hydrodynamic and hydrologic status of the lake. [ABSTRACT FROM AUTHOR]

Published

2021

42. Impacts of the East Asian monsoon on lower tropospheric ozone over coastal South China

Author

Zhou, Derong, Ding, Aijun, Mao, Huiting, Fu, Congbin, Wang, Tao, Chan, L Y, Ding, Ke, Zhang, Yang, Liu, Jane, Lu, An, and Hao, Nan

Subjects

Tropospheric Ozone, Asian Monsoon, Climatology, Interannual VariabilityHong-Kong, Seasonal Behavior, Mozaic Program, Boundary-Layer, Air-Pollution, Surface Ozone, Variability, Pacific, Outflow, Climatology

Published

2013

43. Dynamic left ventricular outflow tract gradient resulting from Takotsubo cardiomyopathy ameliorated by intra-aortic balloon pump counterpulsation: a case report.

Author

O'Brien, Jim, Mahony, Stephen, Byrne, Roger J, and Byrne, Robert A

Subjects

LEFT heart ventricle, TAKOTSUBO cardiomyopathy, INTRA-aortic balloon counterpulsation, CARDIOGENIC shock, ATRIAL fibrillation

Abstract

Background Takotsubo cardiomyopathy is a variant of acute coronary syndrome with characteristic acute left ventricular apical ballooning. Uncommonly, there can be associated left ventricular outflow tract (LVOT) obstruction causing cardiogenic shock refractory to inotropic support. The use of afterload-reducing mechanical support such as intra-aortic balloon pump (IABP) counterpulsation is not routinely employed in instances of this kind. Case summary In our case report, we describe a 66-year-old female with acute Takotsubo cardiomyopathy and associated LVOT obstruction which failed to respond to high-dose dobutamine and whose clinical trajectory was worsened by fast atrial fibrillation with rapid ventricular response. Within 24 h of admission, the patient had an IABP placed which rapidly improved her haemodynamics. Two days later, IABP was removed and within 6 days of admission, apical ballooning and LVOT obstruction had fully recovered. Conclusion We recommend early use of mechanical support with IABP counterpulsation to expedite recovery in patients with acute Takotsubo cardiomyopathy with associated LVOT obstruction. [ABSTRACT FROM AUTHOR]

Published

2021

44. Case Study of Modular Pre-cast Concrete On-Site Stormwater Detention System during Monsoon Season in Southeast Asia

Author

Darren Y.S. Mah, Johnny O.K. Ngu, Rosmina A. Bustami, and Frederik J. Putuhena

Subjects

Field test, Inflow, Outflow, Rainfall, StormPav, SWMM, Environmental sciences, GE1-350, Environmental technology. Sanitary engineering, TD1-1066

Abstract

On-site stormwater detention system within a residential property is meant for an environmental protection device that temporarily stores stormwater within the property lot to mitigate flash flood, particularly during rainy seasons brought by the northeast monsoon. A field test was constructed in a house’s car porch with a 4.40 m x 4.70 m x 0.45 m tank filled with precast-concrete modular units with an effective storage volume of 3.97 m3. The system received water from a 95 m2 house roof via 0.1 m diameter pipe, discharged water via 0.05 m diameter pipe. It had recorded six observed storm events coincided with the 2019/2020 monsoon season that consisted 20–50 mm peak hourly rainfall, 0.0007–0.0018 m3 s-1 inflow, 0.0005–0.0012 m3 s-1 outflow and 0.21–0.47 m water level. Another four historical storm events coincided with the monsoon from 2015–2017 were sourced to augment the analysis. A computer model developed using the storm water management model was calibrated and verified using the six observed events. The Kolmogorov-Smirnov goodness of fit tests between the observed and modelled cumulative distributions had produced 0.01–0.14 maximum vertical distances that were lower than the 0.41–0.68 critical values indicating close matches. As such, the calibrated and verified model was used to simulate the historical storm events with 40–50 mm peak hourly rainfall and produced 0.0010–0.0013 m3 s-1 inflow, 0.00072–0.00076 m3 s-1 outflow and 0.41–0.45 m water level. By combining the field test and computer simulation model, it was found the system was able to contain all stormwaters from northeast monsoon. However, it had a weakness which the system was approaching its maximum capacity once the peak hourly rainfall exceeded 45 mm. With such a procedure in place, improvement could be carried out.

Published

2020

45. Hydrological drought index based on reservoir capacity – Case study of Batujai dam in Lombok Island, West Nusa Tenggara, Indonesia

Author

Yasa I Wayan, Bisri Mohammad, Sholichin Moch, and Andawayanti Ussy

Subjects

drought, El-Nino, hydrological drought index, inflow, outflow, reservoir, River, lake, and water-supply engineering (General), TC401-506, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

Hydrological drought index analysis has been widely developed and applied for the development of water resources. The island of Lombok, which is largely a dry land, requires a significant hydrological drought index to be sourced from measurable data analysis. This research focused aims to obtain hydrological drought index in Lombok Island using the capacity change of reservoir. The analysis includes reservoir data especially in the event of El-Nino. The main parameters analysed in this work are data homogeneity, decrease line of reservoir volume, increase in the line of reservoir volume, reservoir volume deficit, and hydrological drought index (RDI). The basic equation uses the water balance in the reservoir, which is the inflow–outflow and change of reservoir. The results of the analysis show that in the event of El-Nino, the drought hydrological index indicates different levels depending upon the water level of the reservoir. The criteria for the drought level are as follows: weak RDI = from −0.46 to −0.01 at an reservoir elevation of 90.88 to 92.33 m a.s.l, moderate RDI: from −0.59 to −0.46 at water level of reservoir from 90.27 to 90.88 m a.s.l, sever RDI: from −0.80 to −0.59 at water level of reservoir from 88.83 to 90.27 m a.s.l. and very severe RDI: from −0.89 to −0.80 at water level of water reservoir 87.78–88.83 m a.s.l. The duration of drought was 9 months, i.e., from February to November.

Published

2018

46. Regulation of water resources systems using fuzzy logic: a case study of Amaravathi dam

Author

P. V. P. Moorthi, Ajit Pratap Singh, and P. Agnivesh

Subjects

Approximate reasoning, Amaravathi dam, Inflow, Outflow, Storage, Reservoir planning, Water supply for domestic and industrial purposes, TD201-500

Abstract

Abstract Regulation of a water resource system is one of the challenging tasks due to uncertainty involved in demand and supply. It may be due to changes in the climatic conditions, living standards of people, land-use patterns and even because of changes in technology. The problem becomes even more complicated if the objectives pertaining to demand and supply are multiple and conflicting in nature. Therefore, this paper deals with regulation of water resources system based on “if–then” fuzzy logic-based rules which interlinks concepts of interpolative reasoning, logical implications and certain inference tools to infer knowledge about a water resource system using linguistic descriptions. Reasonable inferences have been drawn using concept of tautologies viz. modulus ponens and modulus tollens. Finally, the model is applied to a practical case study in order to demonstrate effectiveness of the proposed logic. The main motive of this study is to demonstrate applicability of fuzzy inference system for regulating operations of water resource systems.

Published

2018

47. The influence of stony soil properties on water dynamics modeled by the HYDRUS model

Author

Hlaváčiková Hana, Novák Viliam, Kostka Zdeněk, Danko Michal, and Hlavčo Jozef

Subjects

rock fragments, soil water retention, water storage, outflow, numerical modeling, hydrus-1d, Hydraulic engineering, TC1-978

Abstract

Stony soils are composed of two fractions (rock fragments and fine soil) with different hydrophysical characteristics. Although stony soils are abundant in many catchments, their properties are still not well understood. This manuscript presents an application of the simple methodology for deriving water retention properties of stony soils, taking into account a correction for the soil stoniness. Variations in the water retention of the fine soil fraction and its impact on both the soil water storage and the bottom boundary fluxes are studied as well. The deterministic water flow model HYDRUS-1D is used in the study. The results indicate that the presence of rock fragments in a moderate-to-high stony soil can decrease the soil water storage by 23% or more and affect the soil water dynamics. Simulated bottom fluxes increased or decreased faster, and their maxima during the wet period were larger in the stony soil compared to the non-stony one.

Published

2018

48. Fluid outflow in the rat spinal cord: the role of perivascular and paravascular pathways

Author

Shinuo Liu, Magdalena A. Lam, Alisha Sial, Sarah J. Hemley, Lynne E. Bilston, and Marcus A. Stoodley

Subjects

Cerebrospinal fluid, Outflow, Spinal cord, Syringomyelia, Perivascular, Interstitial fluid, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Cerebrospinal fluid (CSF) is thought to flow into the brain via perivascular spaces around arteries, where it mixes with interstitial fluid. The precise details concerning fluid outflow remain controversial. Although fluid dynamics have been studied in the brain, little is known about spinal cord fluid inflow and outflow. Understanding the normal fluid physiology of the spinal cord may give insight into the pathogenesis of spinal cord oedema and CSF disorders such as syringomyelia. We therefore aimed to determine the fluid outflow pathways in the rat spinal cord. Methods A fluorescent tracer, Alexa-Fluor®-647 Ovalbumin, was injected into the extracellular space of either the cervicothoracic lateral white matter or the grey matter in twenty-two Sprague–Dawley rats over 250 s. The rats were sacrificed at 20 or 60 min post injection. Spinal cord segments were sectioned and labelled with vascular antibodies for immunohistochemistry. Results Fluorescent tracer was distributed over two to three spinal levels adjacent to the injection site. In grey matter injections, tracer spread radially into the white matter. In white matter injections, tracer was confined to and redistributed along the longitudinal axonal fibres. Tracer was conducted towards the pial and ependymal surfaces along vascular structures. There was accumulation of tracer around the adventitia of the intramedullary arteries, veins and capillaries, as well as the extramedullary vessels. A distinct layer of tracer was deposited in the internal basement membrane of the tunica media of arteries. In half the grey matter injections, tracer was detected in the central canal. Conclusions These results suggest that in the spinal cord interstitial fluid movement is modulated by tissue diffusivity of grey and white matter. The central canal, and the compartments around or within blood vessels appear to be dominant pathways for fluid drainage in these experiments. There may be regional variations in fluid outflow capacity due to vascular and other anatomical differences between the grey and white matter.

Published

2018

49. The influence of rotating wind in supercritical accretion disk with radiation pressure

Author

F Z Zeratgari, E Delkhani, and Sh Abbassi

Subjects

accretion, accretion disks, black hole physics, wind, outflow, Physics, QC1-999

Abstract

We solved one-dimensional hydrodynamic (HD) equations of the slim disks in the presence of the wind and in cylindrical coordinates using self-similar solution. We considered power-law function of for mass loss rate due to wind. Then, we considered mass loss, angular-momentum loss and energy loss in equations. Then, we treated the influence of wind on the dynamics of the system. As an agreement with previous works, it was found that in the case of the slim disks, the effective temperature profile of slim disks is flatter with respect to that of the thin standard disks. Moreover, the mass and the angular momentum loss of the wind will increase the effective temperature of the slim disks. The results turned out that beside effective temperature of disks, the continuum spectrum emitted from the disk can also be affected in the presence of the wind

Published

2018

50. Spontaneous outflow efficiency of confined liquid in hydrophobic nanopores.

Author

Yuan Gao, Mingzhe Li, Yue Zhang, Weiyi Lu, and Baoxing Xu

Subjects

*NANOPORES, *LIQUIDS, *ENERGY conversion, *SUPERFLUIDITY

Abstract

The suspension of nanoporous particles in a nonwetting liquid provides a unique solution to the crux of superfluid, sensing, and energy conversion, yet is challenged by the incomplete outflow of intruded liquid out of nanopores for the system reusability. We report that a continuous and spontaneous liquid outflow from hydrophobic nanopores with high and stable efficiency can be achieved by regulating the confinement of solid-liquid interactions with functionalized nanopores or/and liquids. Full-scale molecular-dynamics simulations reveal that the grafted silyl chains on nanopore wall surfaces will promote the hydrophobic confinement of liquid molecules and facilitate the molecular outflow; by contrast, the introduction of ions in the liquid weakens the hydrophobic confinement and congests the molecular outflow. Both one-step and multistep well-designed quasistatic compression experiments on a series of nanopores/nonwetting liquid material systems have been performed, and the results confirm the outflow mechanism in remarkable agreement with simulations. This study offers a fundamental understanding of the outflow of confined liquid from hydrophobic nanopores, potentially useful for devising emerging nanoporous-liquid functional systems with reliable and robust reusability. [ABSTRACT FROM AUTHOR]

Published

2020