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Добірка наукової літератури з теми "Reservoirs Victoria Evaporation control"

Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 28 січня 2023

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Статті в журналах з теми "Reservoirs Victoria Evaporation control"

1

Luo, Shun She, Qi Qi Lv, and Guang Ming Hu. "The Lithofacies Palaeogeography and Control of the Reservoirs in Middle Ordovician Ma541 Submember in Western Jingbian Tableland." Advanced Materials Research 962-965 (June 2014): 193–202. http://dx.doi.org/10.4028/www.scientific.net/amr.962-965.193.

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The major rock types of Ordovician Majiagou Formation Ma541 Submember in western Jingbian Tableland include muddy dolomite, gypsum-bearing dolomite, gypsum dolomite, limy dolomite, and muddy powder crystal dolomite. This paper is based on the theory of sedimentary petrology and with the methodology of comprehensive mapping by using single factors to analyze multiple factors.Using stratum thickness, the content of gypsum and penecontemporaneous dolomite as single factors, we studied the lithofacies palaeogeography in Ma541 Submember.The results show that Ma541 is generally a set of sedimentation from supratidal limited evaporation environment and in the period of sea level decline with shallow water. The sedimentary microfacies are mainly composed of gypsum-bearing dolomitic flat and gypsum dolomitic flat ,dolomitic gypsum flat comes second. We combined the areas regional geological background with lithofacies palaeogeography to construct the limited evaporation tidal flat sedimentation maps of Ma541 Submember. Meanwhile,the control of reservoirs was studied. We thought that gypsum-bearing dolomitic flats and dolomitic flats provide a foundation for the development of large-area reservoirs.
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2

Wang, Xiao Ju, Hai Tao Mao, Hua Xiang He, and Dong Guo Shao. "Study on Seepage Control Measures of Plain Reservoirs Based on Soil Salinization after Dam." Applied Mechanics and Materials 511-512 (February 2014): 805–10. http://dx.doi.org/10.4028/www.scientific.net/amm.511-512.805.

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Agricultural ecosystem is fragile exceedingly in northwest arid area, the areas of land salinization and desertification account for more than one-third of the country, which is further increasing.However, reservoirs in mountain areas are further from farmland, whats more, high cost of conveyance and great loss need to build considerable the type of plain in injection reservoirs to meet the development of industry and agriculture, such is the case that the number of constructing many plain reservoirs has gone up to 578 so far in Xinjiang. But plain reservoirs shallow water depth, length of spur, high permeable depth of foundation, evaporation and leakage are both high.Plain reservoir leakage lifted the underground water level of the dam after large area of land, salt with water, the land salinization dam after ecological problems, such as more and more serious. As the An Jihai set reservoir as an example, for more than 50 years of operation, the down stream of the dam over 50kilometers of land are white the salinization of sights, many cultivated lands have been deserted.Therefore, we need to improve and solve the problems existing in the plain reservoir from the source to solve the leakage caused groundwater problems is necessary.
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3

Garrido, M. Carmen, José M. Cadenas, Andrés Bueno-Crespo, Raquel Martínez-España, José G. Giménez, and José M. Cecilia. "Evaporation Forecasting through Interpretable Data Analysis Techniques." Electronics 11, no. 4 (February 10, 2022): 536. http://dx.doi.org/10.3390/electronics11040536.

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Climate change is increasing temperatures and causing periods of water scarcity in arid and semi-arid climates. The agricultural sector is one of the most affected by these changes, having to optimise scarce water resources. An important phenomenon within the water cycle is the evaporation from water reservoirs, which implies a considerable amount of water lost during warmer periods of the year. Indeed, evaporation rate forecasting can help farmers grow crops more sustainably by managing water resources more efficiently in the context of precision agriculture. In this work, we expose an interpretable machine learning approach, based on a multivariate decision tree, to forecast the evaporation rate on a daily basis using data from an Internet of Things (IoT) infrastructure, which is deployed on a real irrigated plot located in Murcia (southeastern Spain). The climate data collected feed the models that provide a forecast of evaporation and a summary of the parameters involved in this process. Finally, the results of the interpretable presented model are validated with the best literature models for evaporation rate prediction, i.e., Artificial Neural Networks, obtaining results very similar to those obtained for them, reaching up to 0.85R2 and 0.6MAE. Therefore, in this work, a double objective is faced: to maintain the performance obtained by the models most frequently used in the problem while maintaining the interpretability of the knowledge captured in it, which allows better understanding the problem and carrying out appropriate actions.
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4

Batishcheva, KSENIA A., and ATLANT E. Nurpeiis. "WATER DROPLET EVAPORATION IN A CHAMBER ISOLATED FROM THE EXTERNAL ENVIRONMENT." Tyumen State University Herald. Physical and Mathematical Modeling. Oil, Gas, Energy 6, no. 3 (2020): 8–22. http://dx.doi.org/10.21684/2411-7978-2020-6-3-8-22.

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With an increase in the productivity of power equipment and the miniaturization of its components, the use of traditional thermal management systems becomes insufficient. There is a need to develop drip heat removal systems, based on phase transition effects. Cooling with small volumes of liquids is a promising technology for microfluidic devices or evaporation chambers, which are self-regulating systems isolated from the external environment. However, the heat removal during evaporation of droplets into a limited volume is a difficult task due to the temperature difference in the cooling device and the concentration of water vapor that is unsteady in time depending on the mass of the evaporated liquid. This paper presents the results of an experimental study of the distilled water microdrops’ (5-25 μl) evaporation on an aluminum alloy AMg6 with the temperatures of 298-353 K in an isolated chamber (70 × 70 × 30 mm3) in the presence of heat supply to its lower part. Based on the analysis of shadow images, the changes in the geometric dimensions of evaporating drops were established. They included the increase in the contact diameter, engagement of the contact line due to nano roughening and chemical composition inhomogeneous on the surface (90-95% of the total evaporation time) of the alloy and a decrease in the contact diameter. The surface temperature and droplet volume did not affect the sequence of changes in the geometric dimensions of the droplets. It was found that the droplet volume has a significant effect on the evaporation time at relatively low substrate temperatures. The results of the analysis of droplet evaporation rates and hygrometer readings have shown that reservoirs with salt solutions can be used in isolated chambers to control the concentration of water vapor. The water droplets evaporation time was determined. The analysis of the time dependences of the evaporation rate has revealed that upon the evaporation of droplets in an isolated chamber under the conditions of the present experiment, the air was not saturated with water vapor. The latter did not affect the evaporation rate.
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5

Santos, Fernando Roberto dos, Giovana Katie Wiecheteck, Jorim Sousa das Virgens Filho, Gabriel Alfredo Carranza, Terrence Lynn Chambers, and Afef Fekih. "Effects of a Floating Photovoltaic System on the Water Evaporation Rate in the Passaúna Reservoir, Brazil." Energies 15, no. 17 (August 28, 2022): 6274. http://dx.doi.org/10.3390/en15176274.

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Freshwater scarcity is a significant concern due to climate change in some regions of Brazil; likewise, evaporation rates have increased over the years. Floating photovoltaic systems can reduce water evaporation from reservoirs by suppressing the evaporating area on the water surface. This work evaluated the effects of floating photovoltaic systems on water evaporation rates in the Passaúna Reservoir, southeastern Brazil. Meteorological data such as temperature, humidity, wind speed, and solar radiation were used to estimate the rate of water evaporation using FAO Penman–Monteith, Linacre, Hargreaves–Samani, Rohwer, and Valiantzas methods. The methods were tested with the Kruskal–Wallis test, including measured evaporation from the nearest meteorological station to determine whether there were significant differences between the medians of the methods considering a 95% confidence level for hypothesis testing. All methods differed from the standard method recommended by the FAO Penman–Monteith. Simulations with more extensive coverage areas of the floating photovoltaic system were carried out to verify the relationship between the surface water coverage area and the evaporation reduction efficiency provided by the system and to obtain the avoided water evaporation volume. For the floating photovoltaic system with a coverage area of 1265.14 m2, an efficiency of 60.20% was obtained in reducing water evaporation; future expansions of the FPS were simulated with coverage areas corresponding to energy production capacities of 1 MWp, 2.5 MWp, and 5 MWp. The results indicated that for a floating photovoltaic system coverage area corresponding to 5 MWp of energy production capacity, the saved water volume would be enough to supply over 196 people for a year. More significant areas, such as covering up the entire available surface area of the Passaúna reservoir with a floating photovoltaic system, could save up to 2.69 hm3 of water volume annually, representing a more significant value for the public management of water resources.
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6

Mohamed-Ahmed, M. M. "Olfactory responses of Glossina fuscipes fuscipes (Diptera: Glossinidae) to the monitor lizard Varanus niloticus niloticus." Bulletin of Entomological Research 88, no. 3 (June 1998): 311–17. http://dx.doi.org/10.1017/s000748530002592x.

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AbstractVisual and olfactory responses of Glossina fuscipes fuscipes Newstead to the monitor lizard, Varanus niloticus niloticus Laurenti were studied using various catching devices near Lake Victoria, Kenya. Electric nets baited with visible lizards caught more males (×2.1) and significantly more females (×2.0) than unbaited nets. Lizards concealed in electrified black PVC pipe models, simulating the shape and size of a monitor lizard, increased significantly the catches of tsetse by 2.1 times. Fresh lizard urine dispensed at an evaporation rate of 500 to 1000 mg/h also increased significantly the catches of flies at biconical traps, electrified models and electric nets. Identification of chemical constituents of the odour could improve monitoring and control strategies for G. f. fuscipes, and possibly for other palpalis tsetse species.
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7

HANELT, B., I. N. MWANGI, J. M. KINUTHIA, G. M. MAINA, L. E. AGOLA, M. W. MUTUKU, M. L. STEINAUER, et al. "Schistosomes of small mammals from the Lake Victoria Basin, Kenya: new species, familiar species, and implications for schistosomiasis control." Parasitology 137, no. 7 (April 12, 2010): 1109–18. http://dx.doi.org/10.1017/s0031182010000041.

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SUMMARYRecent schistosomiasis control efforts in sub-Saharan Africa have focused nearly exclusively on treatment of humans with praziquantel. However, the extent to which wild mammals act as reservoirs forSchistosoma mansoniand therefore as sources of renewed transmission following control efforts is poorly understood. With the objective to study the role of small mammals as reservoir hosts, 480 animals belonging to 9 rodent and 1 insectivore species were examined for infection with schistosomes in Kisumu, in the Lake Victoria Basin, Kenya. Animals were collected from 2 sites: near the lakeshore and from Nyabera Marsh draining into the lake. A total of 6·0% of the animals captured, including 5 murid rodent species and 1 species of shrew (Crocidura olivieri) were infected with schistosomes. Four schistosome species were recovered and identified usingcox1 DNA barcoding:S. mansoni,S. bovis,S. rodhainiandS. kisumuensis, the latter of which was recently described from Nyabera Marsh.Schistosoma mansoniandS. rodhainiwere found infecting the same host individual (Lophuromys flavopunctatus), suggesting that this host species could be responsible for the production of hybrid schistosomes found in the area. Although the prevalence ofS. mansoniinfection in these reservoir populations was low (1·5%), given their potentially vast population size, their impact on transmission needs further study. Reservoir hosts could perpetuate snail infections and favour renewed transmission to humans once control programmes have ceased.
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8

Norman, CP. "Effect of groundwater pump management on reclaiming salinised land in the Goulburn Valley, Victoria." Australian Journal of Experimental Agriculture 35, no. 2 (1995): 215. http://dx.doi.org/10.1071/ea9950215.

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Анотація:
In 1985, groundwater pumping from shallow aquifers, with off-farm disposal, began near Girgarre in the Goulburn Valley, Victoria, to provide salinity control to about 1000 ha of farming land. Two groundwater pumps (TI02 and T103) ran continuously for the first 5 years of the project before reverting to intermittent pumping. The operation of a third pump (T103) was based on the capacity for disposal into an evaporation basin. Following 3 years of groundwater pumping, significant reductions in root-zone (0-0.6 m) soil salinity levels were recorded in both annual and perennial pasture paddocks within 350 m of a pump. Yields of perennial pasture on all monitored paddocks showed a significant increase after commencement of the project. In a paddock 300 m from a groundwater pump, average dry matter production increased from 6.3 to 17.2 t/ha. year within 4 years of pumping. Reclamation was reduced by more than a year on paddocks not subjected to irrigation, or those located >800 m from a groundwater pump. Once reclamation was achieved from continuous pumping, the introduction of intermittent pumping continued to maintain optimum soil salinity and pasture production levels on the irrigated paddocks. However, on a dryland paddock and those located >800 m from a pump, increasing fluctuations in soil salinity and soil sodicity levels were measured under this management regime.
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9

Zahedi, Rafi, Parisa Ranjbaran, Gevork B. Gharehpetian, Fazel Mohammadi, and Roya Ahmadiahangar. "Cleaning of Floating Photovoltaic Systems: A Critical Review on Approaches from Technical and Economic Perspectives." Energies 14, no. 7 (April 6, 2021): 2018. http://dx.doi.org/10.3390/en14072018.

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There are some environmental factors, such as ambient temperature, dust, etc., which cause a reduction in the efficiency of Photovoltaic (PV) systems. Installation of PV panels on the water surface, commonly known as Floating Photovoltaic (FPV) systems, is one solution to employ PV panels in a cooler environment, achieve higher efficiency, and reduce water evaporation. FPV systems open up new opportunities for scaling up solar generating capacity, especially in countries with high population density and valuable lands, as well as countries with high evaporation rates and water resources deficiency. Since the FPV system is an almost new concept, its cleaning techniques have not been comprehensively studied. While FPV systems are located on the surface of water resources and reservoirs, the water quality can limit the application of different cleaning techniques. Therefore, this paper investigates different techniques of FPV systems cleaning and categorizes them into water-based and water-free approaches. In addition, their cleaning frequencies, as well as economic aspects, are presented and discussed to determine their merits and demerits for using them in FPV systems.
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10

Radovenchyk, Yaroslav, Tamara Krysenko, and Maksym Poberezhnyi. "Evaporation of liquids at low temperatures." Proceedings of the NTUU “Igor Sikorsky KPI”. Series: Chemical engineering, ecology and resource saving, no. 4 (December 24, 2021): 74–81. http://dx.doi.org/10.20535/2617-9741.4.2021.248947.

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Ukrainian enterprises annually generate millions cubic meters of mineralized water, which is discharged into surface reservoirs, and millions cubic meters of highly concentrated solutions and suspensions, which are accumulated and stored in special sludge storages. This waste water causes irreparable damage to the environment. A new method for the evaporation of industrial concentrates by fibrous materials with capillary properties was proposed not so long ago. The use of such materials allows an effective, autonomous, cheap, and extremely simple system to be created for the evaporation for various liquids and concentrates. The research methodology was as follows. Two graduated cylinders of the same diameter were used in our research. One cylinder was filled with the liquid phase to a certain level and used to control evaporation from the surface of the aqueous medium. In the other, experimental cylinder, a vertical cotton strip was additionally placed (from 1 to 21 layers of fabric). The width of the strip was 5 cm. The length of the strip was 50 cm. The density of cotton was 100 g/m2. The research method was to determine the height of liquid phase capillary rise along the strip of fabric and to evaluate reduction in the volume of liquid that evaporates in both cylinders at set temperatures. It was found that in the absence of wind and the distance between the vertically placed strips of 7–15 mm were sufficient to ensure the maximum evaporation intensity. Our long-term experiments in natural conditions confirmed the high efficiency of the proposed method. At an average daily air temperature of 2.3 °C, there was a significant evaporation from the surface of the fabric during the day. In this case, evaporation from the water surface was not observed. It should be noted that the intensity of evaporation under natural conditions depends on a significant number of factors (temperature, wind speed, luminosity, humidity, etc.), so it is difficult to detect a direct relationship between some of them. With increase only in the liquid phase temperature, the evaporation efficiency decreased. At a temperature of 20 °C, the laboratory installation (15 layers of cotton strip) increased the evaporation intensity by more than 2 times, at 46 °C by more than 5 times, at 57 °C by almost 3 times, but at 75 °C only by about 67 %. It is obvious that heating of the liquid phase alone less influences the evaporation process from the surface of the fabric strip, which was cooled rapidly in the atmosphere at a much lower temperature. Therefore, to increase the evaporation intensity, it is necessary to increase temperature for all components of the liquid–fabric system. A fabric with suitable properties, stretched between two metal racks and immersed into the liquid phase with the lower end, can be used as a simple evaporator. Our research has shown that the use of materials with capillary properties in the treatment of liquid solutions allows simple, cheap, and efficient devices to be created for evaporating water and converting liquid waste into a solid phase.
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Книги з теми "Reservoirs Victoria Evaporation control"

1

Gvakharii͡a, V. K. Isparenie s vodoemov aridnykh territoriĭ. Tbilisi: "Met͡sniereba", 1989.

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2

Potts, Donald F. Estimation of evaporation from shallow ponds and impoundments in Montana. Missoula, MT: Montana Forest and Conservation Experiment Station, School of Forestry, University of Montana, 1988.

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3

Blee, J. W. H. Determination of evaporation and seepage losses, Upper Lake Mary near Flagstaff, Arizona. Tucson, Ariz: Dept. of the Interior, U.S. Geological Survey, 1988.

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4

Blee, J. W. H. Determination of evaporation and seepage losses, Upper Lake Mary near Flagstaff, Arizona. Tucson, Ariz: Dept. of the Interior, U.S. Geological Survey, 1988.

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5

Molle, François. Perdas por evaporação e infiltração em pequenos açudes. Recife: Superintendência do Desenvolvimento do Nordeste, Diretoria de Planejamento Global, Departamento de Planejamento de Recursos Naturais, Grupo de Trabalho de Hidrometeorologia, 1989.

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6

Blee, J. W. H. Determination of evaporation and seepage losses, Upper Lake Mary near Flagstaff, Arizona. Tucson, Ariz: Dept. of the Interior, U.S. Geological Survey, 1988.

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7

J, Varma C. V., ed. Manual on evaporation and its restriction from free water surfaces. New Delhi: Central Board of Irrigation & Power, 1996.

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8

Geological Survey (U.S.), ed. Instrumentation for measuring lake and reservoir evaporation by the energy-budget and mass-transfer methods. NSTL, Miss: U.S. Dept. of the Interior, Geological Survey, 1985.

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Частини книг з теми "Reservoirs Victoria Evaporation control"

1

Ahbari, Abdellatif, Laila Stour, and Ali Agoumi. "Impacts of Climate Change on the Hydro-Climatology and Performances of Bin El Ouidane Reservoir: Morocco, Africa." In African Handbook of Climate Change Adaptation, 2363–86. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-45106-6_245.

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AbstractIn arid and humid contexts, dams’ reservoirs play a crucial role in water regulation and flood control. Under the projected climate change (CC) effects, even a preoptimized management approach (MA) of a reservoir needs to be assessed in this projected climate. This chapter aims to assess the impacts of CC on the Hydroclimatic (HC) variables of the basin upstream the reservoir of Bin El Ouidane (Morocco), and the effects on the performances of its preoptimized MA. The applied Top-Down assessment procedure included CORDEX climate projections, hydrological, siltation, evaporation, and management models. Concerning the HC variables, the results obtained concord with those reported in the literature in terms of trend, but not always in terms of intensity of change. On the other hand, the projections expected a decrease in the performances of the reservoir, except for criterion allocations’ standard deviation, calibrated during the optimization. Also, interesting conclusions have been found like: the change in precipitation dominant form, the accentuation of the pluvial hydrological regime, the advanced snow melting due to the temperature increase. This chapter presents a typical case study on how to use climate projections for reservoir MA adaptation, without being highly and negatively influenced by the climate model uncertainties.
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Тези доповідей конференцій з теми "Reservoirs Victoria Evaporation control"

1

Amano, Yoshiharu, Keisuke Kawanishi, and Takumi Hashizume. "Experimental Investigations of Oscillatory Fluctuation in an Ammonia-Water Mixture Turbine System." In ASME 2005 International Mechanical Engineering Congress and Exposition. ASMEDC, 2005. http://dx.doi.org/10.1115/imece2005-80955.

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This paper reports results from experimental investigations of the dynamics of an ammonia-water mixture turbine system. The mixture turbine system features Kalina Cycle technology [1]. The working fluid is an ammonia-water mixture (AWM), which enhances the power production recovered from the low-temperature heat source [2], [3]. The Kalina Cycle is superior to the Rankine Cycle for a low temperature heat source [4], [5]. The ammonia-water mixture turbine system has distillation-condensation processes. The subsystem produces ammonia-rich vapor and a lean solution at the separator, and the vapor and the solution converge at the condenser. The mass balance of ammonia and water is maintained by a level control at the separator and reservoirs at the condensers. Since the ammonia mass fraction in the cycle has a high sensitivity to the evaporation/condensation pressure and vapor flow rate in the cycle, the pressure change gives rise to a flow rate change and then level changes in the separators and reservoirs and vice versa. From the experimental investigation of the ammonia-water mixture turbine system, it was observed that the sensitivity of the evaporating flow rate and solution liquid density in the cycle is very high, and those sensitivity factors are affected by the ammonia-mass fraction. This paper presents the experimental results of a study on the dynamics of the distillation process of the ammonia-water mixture turbine system and uses the results of investigation to explain the mechanism of the unstable fluctuation in the system.
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Звіти організацій з теми "Reservoirs Victoria Evaporation control"

1

Schmidt-Sane, Megan, Syed Abbas, Soha Karam, and Jennifer Palmer. RCCE Strategies for Monkeypox Response. SSHAP, June 2022. http://dx.doi.org/10.19088/sshap.2022.020.

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Given the health, social, and economic upheavals of the COVID-19 pandemic, there is understandable anxiety about another virus, monkeypox, quickly emerging in many countries around the world. In West and Central Africa, where the disease has been endemic for several decades, monkeypox transmission in humans usually occurs in short, controllable chains of infection after contact with infected animal reservoirs. Recent monkeypox infections have been identified in non-endemic regions, with most occurring through longer chains of human-to-human spread in people without a history of contact with animals or travel to endemic regions. These seemingly different patterns of disease have prompted public health investigation. However, ending chains of monkeypox transmission requires a better understanding of the social, ecological and scientific interconnections between endemic and non-endemic areas. This brief is intended to be read in conjunction with the companion brief entitled ‘Social Considerations for Monkeypox Response’.1 In this set of briefs, we lay out social considerations from previous examples of disease emergence to reflect on 1) the range of response strategies available to control monkeypox, and 2) specific considerations for monkeypox risk communication and community engagement (RCCE). These briefs are intended to be used by public health practitioners and advisors involved in developing responses to the ongoing monkeypox outbreak, particularly in non-endemic countries. This brief on RCCE strategies for monkeypox response was written by Megan Schmidt-Sane (IDS), Syed Abbas (IDS), Soha Karam (Anthrologica), and Jennifer Palmer (LSHTM), with contributions from Hayley MacGregor (IDS), Olivia Tulloch (Anthrologica), and Annie Wilkinson (IDS). It was reviewed by Will Nutland (The Love Tank CIC/PrEPster) and was edited by Victoria Haldane (Anthrologica). This brief is the responsibility of SSHAP.
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