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Full Loli Art Collections By Kos



These decal stickers are absolutely gorgeous and have a different feel from regular stickers!Due to popular demand, we're adding an upsized version of this product. Click here to enjoy a larger version of these gorgeous transfer stickers. ?How do I use these stickers?Step 1 - Cut out and place the selected sticker on your desired surface. Step 2 - Carefully rub over the sticker with a hard, solid object like a coin or ruler. Step 3- Carefully remove the protective foil layer on top of the sticker once the sticker has been firmly applied.


When attempting to apply the sticker, ensure that there is a hard surface below the area of application. This will help ensure that your transfers are effective. Applying the sticker while there's a soft surface below the area of application will usually end up with the sticker not being transferred fully.




Full Loli Art Collections By Kos




On a flourishing hilltop outside the delightful village of Frigiliana, Villa Loli is a magnificent three-bedroom villa perfect for the discerning traveller in search of calm, a touch of luxury and breath-taking scenery.A scenic road brings you to the villa, with space for two cars to park securely. Upon entering, you are welcomed by the bright, utterly majestic living room. A beautiful set of sofas and chairs surround a wooden coffee table, with a flat-screen TV and an open fireplace creating a warm atmosphere in the spacious room. The elegant dining room, with a classic wooden table for six, enjoys beautiful views over the surrounding landscape, all the way to the deep blue of the Mediterranean Sea, and direct access to the garden. The fully-equipped, typically Spanish kitchen is to the far side of the dining room, with plenty of space for plenty of cooks, and also has direct access to the remarkable garden. A laundry room, bathroom and indeed an exclusive sauna complete the outstanding ground floor facilities. On the first floor are all three of the fabulous bedrooms. These include the sublime master bedroom, complete with a king-size bed and an en-suite bathroom with a bathtub, and two twin rooms which share an elegant bathroom with a walk-in shower. Wooden beams stretch across the ceiling, while powerful tones of deep purple and red complement the soft lighting and cream walls in each room. All three spacious and stylish rooms are tastefully decorated in a classic Spanish style, with wooden French windows through which you can enjoy the astonishing views of the Sierra Almijara National Park. The private grounds are perhaps as beautiful as the sumptuous interiors, with 8000sqm of terraces to enjoy! The top terrace is accessed through the beautiful living and dining areas and features a dining table and outdoor kitchen, with a coal barbeque, creating the perfect space for an alfresco meal in the delightful weather. The lower terrace, on the other hand, is the spot for lounging, with an inviting private pool complete with Jacuzzi, flanked by a solarium of sunbeds! The garden is completed by a further patio, a small lawn, a casual seating area, fish pond, hammock and a small garden house for children to play in, all enveloped in a lush forest of trees, with avocado and mango orchards in the surrounding fields!


Villa Loli is a beautiful 3 bedrooms and 3 bathrooms villa over two levels, located on the outskirts of Frigliana. Ground Floor- Living and dining room - Fully equipped kitchen- Sauna- Bathroom with showerFirst Floor- Master bedroom with a king-sized bed and a fully tiled en-suite bathroom with bath- Bedroom with twin single beds- Bedroom with twin single beds- Family bathroom with large walk-in showerExterior Grounds- Private swimming pool (7 x 4 m)- Terrace- Garden with sitting area- Dining facilities- Barbecue- Lawned area- Fish pond- Sun loungers


Step 1 - Cut out and place the selected sticker on your desired surface.Step 2 - Carefully rub over the sticker with a hard, solid object like a coin or ruler.Step 3- Carefully remove the protective foil layer on top of the sticker once the sticker has been firmly applied.When attempting to apply the sticker, ensure that there is a hard surface below the area of application. This will help ensure that your transfers are effective. Applying the sticker while there's a soft surface below the area of application will usually end up with the sticker not being transferred fully.*These stickers can be used on any smooth surfaces (i.e. paper, plastic, fabric, wood, metal and glass, among others). It will not work on surfaces such as silicone, latex as well as matte surfaces.


The Ministry of Environment, Physical Planning & Public Works assigned to a consortium of consultancy companies the Project "Development of a new software platform for the management and operation of the National Databank for Hydrologic and Meteorological Information - 3rd Phase within a GIS environment and relevant dissemination actions". In the framework of the specific project a research team of NTUA undertakes a part as subcontractor. NTUA delivers methodologies for further development of the databases and applications of the Databank and their migration into a web platform (including the experimental node openmeteo.org for free data storage for the public). Specifically, using the knowhow that has been developed in the past by Research Teams from the Department of Water Resources of the School of Civil Engineering a database system and software applications (included hydrological models) are created fully adapted for operation over the Internet. NTUA's contribution is primarily on the design of the new system and the hydrological and geographical database the development of distibuted hydological models, the adaptation of the system to the WFD 2000/60/EC and on supporting dissemination activities. Finally NTUA will participate in the technical support and pilot operation of the project after its delivery from the consortium to the Ministry.


The HYDROGEIOS modelling framework represents the main processes of the hydrological cycle in heavily modified catchments, with decision-depended abstractions and interactions between surface and groundwater flows. A semi-distributed approach and a monthly simulation time step are adopted, which are sufficient for water resources management studies. The modelling philosophy aims to ensure consistency with the physical characteristics of the system, while keeping the number of parameters as low as possible. Therefore, multiple levels of schematisation and parameterisation are adopted, by combining multiple levels of geographical data. To optimally allocate human abstractions from the hydrosystem during a planning horizon or even to mimic the allocation occurred in a past period (e.g. the calibration period), in the absence of measured data, a linear programming problem is formulated and solved within each time step. With this technique the fluxes across the hydrosystem are estimated, and the satisfaction of physical and operational constraints is ensured. The model framework includes a parameter estimation module that involves various goodness-of-fit measures and state-of-the-art evolutionary algorithms for global and multiobjective optimisation. By means of a challenging case study, the paper discusses appropriate modelling strategies which take advantage of the above framework, with the purpose to ensure a robust calibration and reproduce natural and human induced processes in the catchment as faithfully as possible.


Flood engineering is typically tackled as a sequential application of formulas and models, with specific assumptions and parameter values, thus providing fully deterministic outputs. In this procedure, the unique probabilistic concept is the return period of rainfall, which is set a priori, to represent the acceptable risk of all design variables of interest (peak flows, flood hydrographs, flow depths and velocities, inundated areas, etc.). Yet, a more consistent approach would require estimating the risks by integrating the uncertainties of all individual variables. This option can be offered by stochastic simulation, which is the most effective and powerful technique for analysing systems of high complexity and uncertainty. This presupposes to recognize which of the modelling components represent time-varying processes and which ones represent unknown, thus uncertain, parameters. In the proposed framework both should be handled as random variables. The following computational steps are envisaged: (a) generation of synthetic time series of areal rainfall, through multivariate stochastic disaggregation models; (b) generation of random sets of initial soil moisture conditions; (c) run of hydrological and hydraulic simulation models with random sets of parameter values, picked from suitable distributions; (d) statistical analysis of the model outputs and determination of empirical pdfs; and (e) selection of the design value, which corresponds to the acceptable risk. This approach allows for estimating the full probability distribution of the output variables, instead of a unique value, as resulted by the deterministic procedure. In this context, stochastic simulation also offers the means to introduce the missing culture of uncertainty appreciation in flood engineering.


The ODYSSEUS project (from the Greek acronym of its full title "Integrated Management of Hydrosystems in Conjunction with an Advanced Information System") aims at providing support to decision-makers towards integrated water resource management. The end-product comprises a system of co-operating software applications, suitable to handle a wide spectrum of water resources problems. The key methodological concepts are the holistic modelling approach, through the conjunctive representation of processes regarding water quantity and quality, man-made interventions, the parsimony of both input data requirements and system parameterization, the assessment of uncertainties and risks, and the extended use of optimization both for modelling (within various scales) and derivation of management policies. The core of the system is a relational database, named HYDRIA, for storing hydrosystem information; this includes geographical data, raw and processed time series, characteristics of measuring stations and facilities, and a variety of economic, environmental and water quality issues. The software architecture comprises various modules. HYDROGNOMON supports data retrieval, processing and visualization, and performs a variety of time series analysis tasks. HYDROGEIOS integrates a conjunctive hydrological model within a systems-oriented water management scheme, which estimates the available water resources at characteristic sites of the river basin and at the underlying aquifer. HYDRONOMEAS is the hydrosystem control module and locates optimal operation policies that minimize the risk and cost of decision-making. Additional modules are employed to prepare input data. DIPSOS estimates water needs for various uses (water supply, irrigation, industry, etc.), whereas RYPOS estimates pollutant loads from point and non-point sources, at a river basin scale. A last category comprises post-processing modules, for evaluating the proposed management policies by means of economical efficiency and water quality requirements. The latter include sophisticated models that estimate the space and time variation of specific pollutants within rivers (HERIDANOS) and lakes (LERNE), as well as simplified versions of them to be used within the hydrosystem simulation scheme. An interactive framework enables the exchange of data between the various modules, either off-line (through the database) or on-line, via appropriate design of common information structures. The whole system is in the final phase of its development and parts of it have been already tested in operational applications, by water authorities, organizations and consulting companies.


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