Search

Your search keyword '"Vlachogiannis, Diamando"' showing total 35 results
Start Over Author "Vlachogiannis, Diamando" Language english
35 results on '"Vlachogiannis, Diamando"'

2. Energy and Water Interventions That Contribute to the Climate-Proofing of Buildings on Multiple Scales: A Literature Review.

Author

Gavrouzou, Maria, Apreda, Carmela, Raggi, Eva, Rivarola, Marta, Lalaj, Nensi, Vlachogiannis, Diamando, and Sfetsos, Athanasios

Subjects
TECHNOLOGY assessment, CLIMATE change mitigation, POWER resources, MUNICIPAL water supply, WATER supply, BUILT environment, DROUGHT management
Abstract

In the framework of planning and designing resilient housing under a changing climate, the present study constitutes a comprehensive literature review exploring climate-proofing solutions for the built environment concerning energy supply and water availability. This study delved into a multitude of sources that included scientific papers and reports and European Union guidelines and tools. The identified solutions covered building, urban, and territorial scales. The hazards of interest included heatwaves, heavy precipitation, droughts, earthquakes, wildfires, and storms. Several types of solutions were found (e.g., nature-based, education/capacity-building, engineering/built environment, etc.) with different times of application and timescales of action (e.g., defensive measures, short-term solutions, long-term adaptive, etc.). The maturity of the identified solutions was assessed based on the Technology Readiness Level (TRL) and Societal Readiness Level (SRL). Moreover, each solution's contribution to climate mitigation was investigated. The solutions were assessed in terms of self-sustainability and other key criteria, namely, effectiveness, contribution to resilience maturity and climate change mitigation, adaptive nature, financing access, risk reduction, and social cohesion. In total, 85 energy and water solutions were determined from the desk review analysis and 67 (30 for the energy sector and 37 for the water sector) solutions were finally retained and proposed. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

4. A Statistical Analysis of Drought and Fire Weather Indicators in the Context of Climate Change: The Case of the Attica Region, Greece.

Author

Politi, Nadia, Vlachogiannis, Diamando, and Sfetsos, Athanasios

Subjects
FIRE weather, CLIMATE change models, EXTREME value theory, DISTRIBUTION (Probability theory), GLOBAL warming, DROUGHT management, WILDFIRES
Abstract

As warmer and drier conditions associated with global warming are projected to increase in southern Europe, the Mediterranean countries are currently the most prone to wildfire danger. In the present study, we investigated the statistical relationship between drought and fire weather risks in the context of climate change using drought index and fire weather-related indicators. We focused on the vulnerable and long-suffering area of the Attica region using high-resolution gridded climate datasets. Concerning fire weather components and fire hazard days, the majority of Attica consistently produced values that were moderately to highly anti-correlated (−0.5 to −0.9). This suggests that drier circumstances raise the risk of fires. Additionally, it was shown that the spatial dependence of each variable on the 6-months scale Standardized Precipitation Evapotranspiration Index (SPEI6), varied based on the period and climate scenario. Under both scenarios, an increasing rate of change between the drought index and fire indicators was calculated over future periods versus the historical period. In the case of mean and 95th percentiles of FWI with SPEI6, abrupt changes in linear regression slope values were observed, shifting from lower in the past to higher values in the future periods. Finally, the fire indicators' future projections demonstrated a tendency towards an increasing fire weather risk for the region's non-urban (forested and agricultural) areas. This increase was evident from the probability distributions shifting to higher mean and even more extreme values in future periods and scenarios. The study demonstrated the region's growing vulnerability to future fire incidents in the context of climate change. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

6. Multi-Hazard Extreme Scenario Quantification Using Intensity, Duration, and Return Period Characteristics.

Author

Sfetsos, Athanasios, Politi, Nadia, and Vlachogiannis, Diamando

Subjects
CLIMATE extremes, HEAT waves (Meteorology), WIND speed, CLIMATE change
Abstract

Many modern frameworks for community resilience and emergency management in the face of extreme hydrometeorological and climate events rely on scenario building. These scenarios typically cover multiple hazards and assess the likelihood of their occurrence. They are quantified by their main characteristics, including likelihood of occurrence, intensity, duration, and spatial extent. However, most studies in the literature focus only on the first two characteristics, neglecting to incorporate the internal hazard dynamics and their persistence over time. In this study, we propose a multidimensional approach to construct extreme event scenarios for multiple hazards, such as heat waves, cold spells, extreme precipitation and snowfall, and wind speed. We consider the intensity, duration, and return period (IDRP) triptych for a specific location. We demonstrate the effectiveness of this approach by developing pertinent scenarios for eight locations in Greece with diverse geographical characteristics and dominant extreme hazards. We also address how climate change impacts the scenario characteristics. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

7. Quantifying the Long-Term Performance of Rainwater Harvesting in Cyclades, Greece.

Author

Zarikos, Ioannis, Politi, Nadia, Gounaris, Nikolaos, Karozis, Stelios, Vlachogiannis, Diamando, and Sfetsos, Athanasios

Subjects
WATER management, WATER supply, ECOLOGICAL impact, WATER shortages, WATER harvesting
Abstract

South European and Mediterranean countries traditionally suffer from water scarcity, especially the regions around the Mediterranean. In Cyclades, the effects of drought have historically been observed and tackled with small-scale applications, with the most efficient method being rainwater harvesting (RWH). RWH is an inherent aspect of the local population's culture and architecture, since most houses have built-in water tanks and flat roofs to harvest as much rainwater as possible. In recent decades, the increase in local population and tourism have added additional stress to the limited water resources of the Cycladic islands. To overcome water shortages, most of the islands are equipped with desalination plants. Despite the use of these plants, RWH is still a vital source of water that is free and has zero carbon footprint. Thus, it is important to compare, assess and quantify the performance of this traditional water conserving method as a key water source for the islands' water resources management, today and for the coming decades. In this research, we investigate and quantify the future performance of rainwater harvesting applications and their contribution to continuous, sustainable, and climate-resilient water supply. The results show a decrease in rainwater harvesting potential in most of the islands, as well as the negative effect of touristic activity on per capita water availability on the islands. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

10. Fire Weather Assessment of Future Changes in Fire Weather Conditions in the Attica Region.

Author

Politi, Nadia, Vlachogiannis, Diamando, Sfetsos, Athanasios, and Gounaris, Nikolaos

Subjects
FIRE weather, CLIMATE change, EXTREME weather, METHODOLOGY
Abstract

Under the framework of the European project "FirEUrisk", the present work aimed to spatially assess the climate change signal of fire weather danger in the Attica region at a high resolution of 5 km. For this purpose, a methodology was applied to investigate the projected changes in fire weather conditions under two emission scenarios and two future periods. The fire weather assessment was based on the fire weather index system and other related indices. The calculated indices were derived from high-resolution validated simulations. Large increases in FWI90 were observed during all periods and under both emission scenarios, mainly in the eastern parts. It is estimated that the northeastern parts will encounter more than 70 days of extreme fire weather, which corresponds to a future change of an increase of more than 45 days compared to the historical period. A change of more than 50% in the ISI will be observed in almost the entire region in the near future under RCP4.5, while this change is restricted mostly to the eastern Attica region under RCP8.5 in both periods. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

11. How Accurate Climate Information Can Help the Climate Adaptation in Regional Scale: The Case Study of Sitia.

Author

Golemi, Alesia Margarita, Karakitsou, Effrosyni, Karozis, Stelios, Markantonis, Iason, Politi, Nadia, Sfetsos, Athanasios, Vlachogiannis, Diamando, and Kapetanakis, Pavlos

Subjects
CLIMATE change, DOWNSCALING (Climatology), METEOROLOGICAL precipitation, TEMPERATURE measurements, GEOMORPHOLOGY
Abstract

According to the recent IPCC report, the Mediterranean, and consequently the region of Sitia, is one of the European "climate hotspots". Its complex geomorphology and multiple locations with very distinct microclimate characteristics make high-resolution climate projections critical for the appropriate determination of effective local adaptation policies. The paper demonstrates the significance of the dynamical downscaling of climate information from 20 km x 20 km to a 5 km x 5 km scale of temperature, precipitation, drought, and fire risk for the region of Sitia and present, near-, and far-future climate projections using RCP4.5 and RCP8.5 scenarios. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

12. Investigation of Climate Change Impacts on the Building Materials of Archeological Monuments.

Author

Markantonis, Iason, Sfetsos, Athanasios, Vlachogiannis, Diamando, Kioutsioukis, Ioannis, Michalopoulou, Anastasia, Kilikoglou, Vassilis, and Karatasios, Ioannis

Subjects
CLIMATE change, CONSTRUCTION materials, MONUMENTS, SALT, ATMOSPHERIC models
Abstract

Weather conditions affect the microclimate of architectural monuments. The alteration of microclimate conditions may create risks for monuments, accelerating their weathering process. For Greece, hosting numerous monuments, the identification of the risks that climate change possess is essential for planning mitigation actions. The main soluble salts that affect archaeological materials are halite and the system of thenardite/mirabilite. The thermodynamics of the salts' equilibrium are affected by atmospheric conditions. We study the climatology of these conditions, adopting modeled data produced by high-resolution simulations. Possible climate change impacts are investigated, aiming at mapping monuments' vulnerability in Greece. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

14. Investigation of Fire Weather Danger under a Changing Climate at High Resolution in Greece.

Author

Politi, Nadia, Vlachogiannis, Diamando, Sfetsos, Athanasios, Gounaris, Nikolaos, and Varela, Vassiliki

Abstract

Future fire weather conditions under climate change were investigated based on the Fire Weather Index (FWI), Initial Spread Index (ISI) and threshold-specific indicators in Greece. The indices were calculated from climate datasets derived from high-resolution validated simulations of 5 km. The dynamical downscaled simulations with the WRF model were driven by EC-Earth output for historical (1980–2004) and future periods, under two Representative Concentration Pathways (RCPs), RCP4.5 and 8.5. The analysis showed that the FWI is expected to increase substantially, particularly in the southern parts with extreme values found above 100. In addition, the number of days with an FWI above the 90th percentile is projected to increase considerably (above 30 days), under both scenarios. Over the eastern and northern mainland, the increase is estimated with more than 70 days under RCP4.5, in the near future (2025–2049). Moreover, central and north-eastern parts of the country will be affected with 30 or more extreme consecutive days of prolonged fire weather, under RCP4.5, in the near future and under RCP8.5 in the far future (2075–2099). Finally, the expected rate of fire spread is more spatially extended all over the country and particularly from southern to northern parts compared to the historical state. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

15. Weathering Mechanisms of Porous Marl Stones in Coastal Environments and Evaluation of Conservation Treatments as Potential Adaptation Action for Facing Climate Change Impact.

Author

Michalopoulou, Anastasia, Markantonis, Iason, Vlachogiannis, Diamando, Sfetsos, Athanasios, Kilikoglou, Vassilis, and Karatasios, Ioannis

Subjects
STONE, CLIMATE change mitigation, MARL, WEATHERING, ENVIRONMENTAL protection, ACCELERATED life testing, CLIMATE change, CHEMICAL weathering
Abstract

This work presents the methodological approach followed for the study of the interaction of natural stone monuments with the local microclimate (exposure to RH, temperature alterations, wind, marine aerosol). This was implemented with the documentation of the associated weathering phenomena and the study of historic climate data of the area. The paper is focused on the main weathering mechanisms of the marly limestone at the Hellenistic theater of Zea in Piraeus, Greece. Based on the weathering phenomena identified, the development of the appropriate mitigation strategy was based on the physical, chemical and mechanical characterization of the natural stones, along with the evaluation of different conservation treatments, considering the characteristics of the coastal environment. Considering the mineralogy of marly limestones, silane-based materials were selected for providing both consolidation and water repellency effects. The evaluation of the conservation treatments was based on the modification of microstructural and water-related properties of natural stone samples, along with their consequent effect on their durability against accelerated aging tests. The results indicated that the design of migration actions proved to be multivariable parameter, depending on the intrinsic stone properties, the environmental parameters and the conservation efficacy of the treatments. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

16. Investigation of the extreme wet–cold compound events changes between 2025–2049 and 1980–2004 using regional simulations in Greece.

Author

Markantonis, Iason, Vlachogiannis, Diamando, Sfetsos, Athanasios, and Kioutsioukis, Ioannis

Subjects
*ELECTRONIC data processing, *CLIMATE change, *HUMAN activity recognition, *MODEL validation, *ALTITUDES
Abstract

This paper aims to study wet–cold compound events (WCCEs) in Greece for the wet and cold season November–April since these events may affect directly human activities for short or longer periods, as no similar research has been conducted for the country studying the past and future development of these compound events. WCCEs are divided into two different daily compound events, maximum temperature– (TX) accumulated precipitation (RR) and minimum temperature– (TN) accumulated precipitation (RR), using fixed thresholds (RR over 20 mm d -1 and temperature under 0 ∘ C). Observational data from the Hellenic National Meteorology Service (HNMS) and simulation data from reanalysis and EURO-CORDEX models were used in the study for the historical period 1980–2004. The ensemble mean of the simulation datasets from projection models was employed for the near future period (2025–2049) to study the impact of climate change on the occurrence of WCCEs under the Representative Concentration Pathways (RCPs) 4.5 and 8.5 scenarios. Following data processing and validation of the models, the potential changes in the distribution of WCCEs in the future were investigated based on the projected and historical simulations. WCCEs determined by fixed thresholds were mostly found over high altitudes with TN–RR events exhibiting a future tendency to reduce particularly under the RCP 8.5 scenario and TX–RR exhibiting similar reduction of probabilities for both scenarios. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

17. High Resolution Future Projections of Drought Characteristics in Greece Based on SPI and SPEI Indices.

Author

Politi, Nadia, Vlachogiannis, Diamando, Sfetsos, Athanasios, Nastos, Panagiotis T., and Dalezios, Nicolas R.

Subjects
*DROUGHT management, *DROUGHTS, *METEOROLOGICAL research, *WEATHER forecasting, THESSALY (Greece)
Abstract

Future changes in drought characteristics in Greece were investigated using dynamically downscaled high-resolution simulations of 5 km. The Weather Research and Forecasting model simulations were driven by EC-EARTH output for historical and future periods, under Representative Concentration Pathways 4.5 and 8.5. For the drought analysis, the standardized precipitation index (SPI) and the standardized precipitation-evapotranspiration index (SPEI) were calculated. This work contributed to achieve an improved characterization of the expected high-resolution changes of drought in Greece. Overall, the results indicate that Greece will face severe drought conditions in the upcoming years, particularly under RCP8.5, up to 8/5 y of severity change signal. The results of 6-month timescale indices suggest that more severe and prolonged drought events are expected with an increase of 4 months/5 y, particularly in areas of central and eastern part of the country in near future, and areas of the western parts in far future. The indices obtained in a 12-month timescale for the period 2075–2099 and under RCP8.5 have shown an increase in the mean duration of drought events along the entire country. Drought conditions will be more severe in lowland areas of agricultural interest (e.g., Thessaly and Crete). [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

19. Extreme wet-cold compound events investigation under climate change in Greece.

Author

Markantonis, Iason, Vlachogiannis, Diamando, Sfetsos, Athanasios, and Kioutsioukis, Ioannis

Subjects
*CLIMATE change, *ELECTRONIC data processing, *MODEL validation, *ALTITUDES, *PERCENTILES
Abstract

This paper aims to study wet-cold compound events (WCCEs) over Greece for the wet and cold season November-April. WCCEs are divided in two different compound events (TX-RR) and (TN-RR) and two different approaches using fixed (RR over 20 mm/day and Temperature under 0 °C) and percentile (RR over 95th and Temperature under 5th) thresholds. Observational data from the Hellenic National Meteorology Service (HNMS) and simulation data from reanalysis and EUROCORDEX models were used in the study for the historical period 1980-2004. Simulation datasets from projection models were employed for the near future period (2025-2049) to study the impact of climate change on the occurrence of WCCEs under RCP 4.5 and 8.5 scenarios. Following data processing and validation of the models, the potential changes in the distribution of WCCEs in the future were investigated based the projected and historical simulations. WCCEs determined by fixed thresholds were mostly found over high altitudes with a future tendency to reduce particularly under RCP 8.5. On the other hand, WCCEs obtained with percentile thresholds, were distributed mostly in Eastern Greece and Crete while their changes differed significantly among models. [ABSTRACT FROM AUTHOR]

Published
2022

20. Quantifying the Occurrence of Multi-Hazards Due to Climate Change.

Author

Vlachogiannis, Diamando, Sfetsos, Athanasios, Markantonis, Iason, Politi, Nadia, Karozis, Stelios, and Gounaris, Nikolaos

Subjects
CLIMATE change, CLIMATE extremes, SCIENTIFIC knowledge, WINDSTORMS, SPATIAL resolution
Abstract

This paper introduces a climatic multi-hazard risk assessment for Greece, as the first-ever attempt to enhance scientific knowledge for the identification and definition of hazards, a critical element of risk-informed decision making. Building on an extensively validated climate database with a very high spatial resolution (5 × 5 km2), a detailed assessment of key climatic hazards is performed that allows for: (a) the analysis of hazard dynamics and their evolution due to climate change and (b) direct comparisons and spatial prioritization across Greece. The high geographical complexity of Greece requires that a large number of diverse hazards (heatwaves—TX, cold spells—TN, torrential rainfall—RR, snowstorms, and windstorms), need to be considered in order to correctly capture the country's susceptibility to climate extremes. The current key findings include the dominance of cold-temperature extremes in mountainous regions and warm extremes over the coasts and plains. Extreme rainfall has been observed in the eastern mainland coasts and windstorms over Crete and the Aegean and Ionian Seas. Projections of the near future reveal more warm extremes in northern areas becoming more dominant all over the country by the end of the century. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

21. Spatiotemporal investigation of wet–cold compound events in Greece.

Author

Markantonis, Iason, Vlachogiannis, Diamando, Sfetsos, Athanasios, Kioutsioukis, Ioannis, and Politi, Nadia

Subjects
*METEOROLOGICAL services, *METEOROLOGICAL research, *CLIMATE extremes, *WEATHER forecasting, *GEOGRAPHY, *TEMPERATURE distribution
Abstract

Climate change is set to affect extreme climate and meteorological events. The combination of interacting physical processes (climate drivers) across various spatial and temporal scales resulting to an extreme event is referred to as compound event. The complex geography and topography of Greece forms a variety of regions with different local climate conditions affecting the daily minimum temperature and precipitation distributions and subsequently the distribution of compound events of low temperature and high precipitation values. The aim of our study in this work is to identify these wet–cold events based on observational data from the Hellenic National Meteorological Service (HNMS) stations, which are divided into five different geographical categories, in the period 1980–2004 and coldest months of the year (November-April) on monthly basis. Two available reanalysis products, that of ERA-Interim downscaled with the Weather Research and Forecasting (WRF) model at 5km horizontal resolution (WRF_5), and the coarser resolution (∼30 km) ERA5 Reanalysis dataset from European Centre for Medium-Range Weather Forecasts (ECMWF), are adopted to derive a gridded monthly spatial distribution of wet–cold compound events, after performing a comparison with the observations. The results yield that the monthly maximum HNMS probabilities range from 0.07 % in April to 0.85 % in February, ERA5 range from 0.4 % in April to 2.97 % in February and WRF_5 from 10.4 % in November to 25.04 % in February. The results also displayed that February, January and December, are in this order, the months with the highest WCCEs. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

23. Assessment of climate change impacts on wind resource characteristics and wind energy potential in Greece.

Author

Katopodis, Theodoros, Vlachogiannis, Diamando, Politi, Nadia, Gounaris, Nikolaos, Karozis, Stelios, and Sfetsos, Athanasios

Subjects
*WIND power, *CLIMATE change, *POTENTIAL energy, *POWER resources, *WIND speed, *EFFECT of earthquakes on buildings
Abstract

Wind technology is projected to play a key role in mitigating climate change effects and contributing to the reduction of CO2 emissions, but its sustainability critically depends on current and future climate conditions. In this study, the climate change impacts on wind resources and wind energy potential in Greece are assessed, yielding a wealth of information that could be used by stakeholders. A detailed evaluation of future wind characteristics over Greece is carried out using EURO-CORDEX RCA4 model data with a horizontal resolution of ∼12 km, taking into consideration future RCP scenarios for the short term decadal climatology of 2040, which is the expected end-life of installed wind turbines. The RCA4 model demonstrated accurate performance when compared to actual observational data from the HNMS network, thus allowing higher confidence in assessments of future periods. Future projections revealed changes in the mean wind speed of the order of ±5% that did not vary significantly for the different RCP scenarios, although on a monthly basis that variability could reach ±20%. Decadal changes in the mean wind potential were of the order of ±15% for the two RCPs (2.6 and 8.5). Wind gusts exceeding 52 m/s, linked to the wind turbine structural integrity and robust performance, appeared more frequently in RCP 8.5 by about 2–4 times per decade, affecting mostly the South Ionian Sea. The findings also indicate a tendency for calming of the "Etesians" winds over the Aegean Sea in future summers. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

24. Effect of the Standard Nomenclature for Air Pollution (SNAP) Categories on Air Quality over Europe.

Author

Tagaris, Efthimios, Sotiropoulou, Rafaella Eleni P., Gounaris, Nikos, Andronopoulos, Spyros, and Vlachogiannis, Diamando

Subjects
AIR pollution, AIR quality management, GASES from plants, HUMIDITY
Abstract

The contribution of different anthropogenic source-sectors on ozone mixing ratios and PM2.5 concentrations over Europe is assessed for a summer month (July 2006) using the US Environmental Protection Agency's (EPA's) Models-3 framework and the Netherlands Organization for Applied Scientific Research (TNO) anthropogenic emissions for 2006. Anthropogenic emission sources have been classified into 10 different Standard Nomenclature for Air Pollution (SNAP) categories. The road transport category, which is mainly responsible for NOX emissions, is estimated to have the major impact on Max8hrO3 mixing ratio suggesting an increase of 6.8% on average over Europe, while locally it is more than 20%. Power generation category is estimated to have the major impact on PM2.5 concentrations since it is the major source of SO2 emissions, suggesting an increase of 22.9% on average over Europe, while locally it is more than 60%. Agriculture category is also contributing significantly on PM2.5 concentrations, since agricultural activities are the major source of NH3 emissions, suggesting an increased by 16.1% on average over Europe, while in regions with elevated NH3 emissions the increase is up to 40%. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

25. PARTICLES NUMBER AND CONCENTRATION PATTERNS IN THE COASTAL AREA OF AEGINA, ATHENS.

Author

Pateraki, Styliani, Asimakopoulos, Dimosthenis, Sciare, Jean, Maggos, Thomas, Vlachogiannis, Diamando, Gounaris, Nikolaos, Karozis, Stelios, Sfetsos, Athanasios, and Vasilakos, Christos

Abstract

Measurements of both mass (PM10, PM2.5, PM1) and number concentration of particles (diameter between 0.30 and 20 μm), were employed at a coastal background area of Athens during the summer period July-August 2008. The daily concentrations of PM10, PM2.5 and PM1 did not exceed 74.7μg/m3, 47.3μg/m3 and 32.0μg/m3, respectively while the maximum value for the number concentration of particles was recorded for those with diameter varying between 0.30 and 0.40μm (236294 number concentration/l). The acquired data underline the determinant role of transportation to the configuration of the particulate pollution of an area, clearly suggesting the non local role of the emissions. The dependence of the aerosols behavior on the prevailing meteorological conditions (temperature, relative humidity, wind, atmospheric circulation) was also evaluated. The very few associations between the particles (number and mass) and the meteorological parameters fluctuations confirm the hypothesis of the complicity of the PM character. Taking into account the experimental data and the trajectory analysis results, the obtained picture was characterized by high concentrations during the domination of North flow (days with the combination of high-low pressure systems and/or the strong north wind regime), with intrusions of polluted air masses from both regional and large scale distances. Being registered only during the specific wind regime, the exceedances of both E.U. and E.P.A. daily PM10 and PM2.5 limit values support further the previous assumption. [ABSTRACT FROM AUTHOR]

Published
2012

26. COMPARISON OF THE PURITY OF DIFFERENT COMMERCIALLY AVAILABLE CO2 TYPES AND THE EFFECT OF A SIMPLE PURIFICATION PROCEDURE.

Author

Papadopoulos, Athanasios, Vlachogiannis, Diamando, Maggos, Thomas, and Karayiannis, Miltiadis I.

Abstract

Supercritical Fluid Extraction (SFE) with CO2 is often applied to extract organic trace compounds from environmental samples. For the purpose of extracting sufficiently organic compounds from samples with the method of SFE-CO2, CO2 of high purity is required. Because of the lack of detailed information on the identity and concentrations of impurities in commercially available CO2 and the widely varying cost of different CO2 types, five different CO2 brands were analyzed for their impurities. The experiments have been performed using an on-line combination of the SFE extractor and GC chromatograph. Furthermore, liquid CO2 of all brands was also passed through an active charcoal trap before entering the SFE-GC combination to investigate the effectiveness of the trap on the impurity results. To eliminate impurities of previously analyzed CO2 samples from the analytical system, the analysis of all CO2 brands, with and without charcoal filter, has been repeated several times until a stable impurity level was achieved. The evaluation of the chromatograms was carried out using two different integration procedures. The differences found in the results on the sum of the impurities in the brands, between the cases with or without a charcoal filter, were in the range of 18 to 116 when applying the automatic integration approach. The respective range of the results in the case of manual integration, including the unresolved part of the eluting impurities, was lower with values found between 5 and 18. [ABSTRACT FROM AUTHOR]

Published
2012

27. Computational study of the effects of induced land use changes on meteorological patterns during hot weather events in an urban environment.

Author

Vlachogiannis, Diamando, Sfetsos, Athanasios, Gounaris, Nikolaos, and Papadopoulos, Athanasios

Subjects
LAND use, URBAN land use, URBANIZATION, AIR quality, HIGH temperatures, BUILDING-integrated photovoltaic systems, LAND cover
Abstract

The heavy urbanisation of great cities has caused immense concern to societies due to air quality degradation and adverse changes in local climates such as abnormally high temperatures. Due to the growing demand for renewable energy resources and electrical power generation, the installation of photovoltaic (PV) panels on building roofs and other available open spaces has advanced in the recent years. Such applications are translated to land use and land cover modifications with respect to the existing situation. This work attempts to investigate the application of PVs in the city of Athens (Greece) and estimate computationally the subsequent results in maximum temperatures and wind velocities mainly during hot weather events. Those events were identified using meteorological data available from the National Centres for Environmental Prediction (NCEP) global forecasting system (GFS). Land use changes due to photovoltaic canopies have been translated into changes in surface albedo and roughness, specific heat capacities, thermal properties and evapo-transpiration in the input files of the domain of Athens (1 × 1 km²) of the modelling system (Mesoscale Model 5, MM5). The model results revealed noticeable changes in the temperature and wind fields when applying the scenario of installing PV panels in the urban canopy of the city. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

28. Application of adjoint CMAQ chemical transport model in the Athens greater area: sensitivities study on ozone concentrations.

Author

Andronopoulos, Spyros, Sfetsos, Athanasios, Vlachogiannis, Diamando, Yiotis, Andreas, and Gounaris, Nikolaos

Subjects
AIR quality, EMISSIONS (Air pollution), METEOROLOGY
Abstract

The factors affecting ground level ozone concentrations in the Greater Athens Area (GAA) are examined through adjoint sensitivity analysis, using a meteorology and air quality forecasting system based on MM5, the in-house EMISLAB emissions processing system and the chemical transport model Community Multiscale Air Quality (CMAQ). Sensitivities of the ground level ozone concentrations ('response functional') at certain locations and target times are calculated with respect to the state variables (species concentrations on the grid points and species emissions) by running the adjoint model in reverse mode. The factors affecting ozone levels (most influential regions) are identified through the sensitivities spatial distribution for different times. [ABSTRACT FROM AUTHOR]

Published
2011
Full Text
View/download PDF

29. Assessment of the impact of SF 6 and PFC reservoir tracers on global warming, the AEOLOS study.

Author

Vlachogiannis, Diamando, Sfetsos, Athanasios, Stubos, Athanassios K., Sotiropoulou, Rafaella-Eleni P., Tagaris, Efthimios, Pilinis, Christodoulos, Zhong, Wenyi, Haigh, Joanna D., Eriksen, Dag Oistein, Hartvig, Sven K., Chatzichristos, Christos, Muller, Jiri, Kleven, Reidun, and Nielssen, Ingunn

Abstract

SF6 and PFC are being used as state-of-the-art tracers in tracer-technology programmes aimed at efficient oil recovery in the North Sea. This study aimed at specifying sources of leakage and quantifying emission levels of such gases and at evaluating their effect on global warming. To satisfy these goals, quantification of SF6 and PFC combustion by-products under different realistic flame/temperature conditions (turbine, refinery, power plant, households and car engine) has been performed. The PFC compounds studied were PMCP (CF3C5F9), PMCH (CF3C6F11) and 1, 2-PDMCH ((CF3)2C6F10). Three-dimensional transport atmospheric modelling has been carried out using UAM-AERO for four different tracers' emissions scenarios (Base scenario, one including maximum emissions of tracers and two scenarios including overestimated emissions during loading processes and distribution over the land of Norway). The results showed a significant increase in the background concentrations of SF6 and PFC in the last two mentioned scenarios up to 6 km height approximately. These concentration profiles have been used as input to radiative models. In addition to SF6 spectral data obtained from HITRAN2K complemented with new band measurements, newly obtained data with quantitative spectral analysis for the specific PFC have been used in the line-by-line (GENLN2) and broadband models. [ABSTRACT FROM AUTHOR]

Published
2005
Full Text
View/download PDF

30. Development of an Early Warning and Incident Response System for the Protection of Visitors from Natural Hazards in Important Outdoor Sites in Greece.

Author

Psaroudakis, Chrysostomos, Xanthopoulos, Gavriil, Stavrakoudis, Dimitris, Barnias, Antonios, Varela, Vassiliki, Gkotsis, Ilias, Karvouniari, Anna, Agorgianitis, Spyridon, Chasiotis, Ioannis, Vlachogiannis, Diamando, Sfetsos, Athanasios, Kaoukis, Konstantinos, Christopoulou, Aikaterini, Antakis, Petros, Gitas, Ioannis Z., and Hall, Colin Michael

Abstract

Safety in touristic destinations is of utmost importance since tourists' preferences change frequently in response to emerging threats. Natural hazards are a significant risk and, as such, they need to be considered in the effort for safe tourism. Services and systems monitoring and predicting extreme natural phenomena and disasters in sites of special tourist and cultural interest can lead to more effective risk management and incident response. This paper presents Xenios, a system under development in Greece that provides early warning and risk communication services via web-based and mobile phone applications. We present the user requirements analysis contacted, which led to the design of a modular system architecture through a formal Business Process Model procedure. Currently, early warning systems for wildfire, floods, and extreme weather events are offered, based on a fusion of information from satellite imagery, meteorological forecasts, and risk estimation models. Moreover, visitors' dispersion monitoring via unmanned aerial vehicles (UAVs) and Wi-Fi connection signals is also offered, along with emergency response planning and ticketing system's interfacing. The system is built around a modular architecture that permits the easy integration of new subsystems or other danger forecasting modules, depending on the site's actual needs and limitations. Xenios also provides a mobile app for site visitors, which establishes a communication link for sending alarms, but also serves them with useful tourist information, so that they are encouraged to download and use the app. Finally, the opportunities for supporting a viable business model are also discussed. The results of this study could prove useful in designing other natural risk management systems for sites of cultural and natural interest. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

31. Methodology for the Study of Near-Future Changes of Fire Weather Patterns with Emphasis on Archaeological and Protected Touristic Areas in Greece.

Author

Varela, Vassiliki, Vlachogiannis, Diamando, Sfetsos, Athanasios, Politi, Nadia, and Karozis, Stelios

Subjects
FIRE weather, FIRE management, FOREST fire prevention & control, FOREST fire management, SPATIAL analysis (Statistics), GEOGRAPHIC information systems, ENVIRONMENTAL sciences, FOREST fires
Abstract

This work introduces a methodology for assessing near-future fire weather pattern changes based on the Canadian Fire Weather Index system components (Fire Weather Index (FWI), Initial Spread Index (ISI), Fire Severity Rating (FSR)), applied in touristic areas in Greece. Four series of daily raster-based datasets for the fire seasons (May–October), concerning a historic (2006 to 2015) and a future climatology period (2036–2045), were created for the areas under consideration, based on high-resolution climate modelling with the Representative Concentration Pathway (RCP), PCR 4.5 and RCP 8.5 scenarios. The climate model data were obtained from the European Coordinated Downscaling Experiment (EURO-CORDEX) climate database and consisted of atmospheric variables as required by the FWI system, at 12.5 km spatial resolution. The final datasets of the abovementioned variables used for the study were processed at 5 km spatial resolution for the domain of interest after applying regridding based on the nearest neighbour interpolating process. Geographic Information Systems (GIS) spatial operations, including spatial statistics and zonal analyses, were applied on the series of the derived daily raster maps in order to provide a number of output thematic layers. Moreover, historic FWI percentile values, which were estimated for Greece in the frame of a past research study of the Environmental Research Laboratory (EREL), were used as reference data for further evaluation of future fire weather changes. The straightforward methodology for the assessment of the evolution of spatial and temporal distribution of Fire weather Danger due to climate change presented herewith is an essential tool for enhancing the knowledge for the decision support process for forest fire prevention, planning and management policies in areas where the fire risk both in terms of fire hazard likelihood and expected impact is quite important due to human presence and cultural prestige, such as archaeological and tourist protected areas. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

32. A Sensitivity Study of High-Resolution Climate Simulations for Greece.

Author

Politi, Nadia, Sfetsos, Athanasios, Vlachogiannis, Diamando, Nastos, Panagiotis T., and Karozis, Stylianos

Subjects
NUMERICAL weather forecasting, ATMOSPHERIC temperature, CLIMATOLOGY, STATISTICS, MAXIMA & minima, CLIMATE change models
Abstract

In the present study, the ability of the Advanced Weather Research and Forecasting numerical model (WRF-ARW) to perform climate regionalization studies in the topographically complex region of Greece, was examined in order to explore the possibility of a more reliable selection of physical schemes for the simulation of historical and future high resolution (5 km) climate model experiments to investigate the impact of climate change. This work is directly linked to a previous study investigating the performance of seven different model setups for one year, from which the need was derived for further examination of four different simulations to investigate the model sensitivity on the representation of surface variables statistics during a 5-year period. The results have been compared with observational data for maximum and minimum air temperature and daily precipitation through statistical analysis. Clear similarities were found in precipitation patterns among simulations and observations, yielding smoothly its inter-annual variability, especially during the wettest months and summer periods, with the lowest positive percentage BIAS calculated at about 19% for the selected combination of physics parameterizations (PP3). Regarding the maximum and minimum temperature, statistical analysis showed a high correlation above 0.9, and negative bias around 1−1.5 °C, and positive bias near 2 °C, respectively. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

33. Projection of Forest Fire Danger due to Climate Change in the French Mediterranean Region.

Author

Varela, Vassiliki, Vlachogiannis, Diamando, Sfetsos, Athanasios, Karozis, Stelios, Politi, Nadia, and Giroud, Frédérique

Abstract

Fire occurrence and behaviour in Mediterranean-type ecosystems strongly depend on the air temperature and wind conditions, the amount of fuel load and the drought conditions that drastically increase flammability, particularly during the summer period. In order to study the fire danger due to climate change for these ecosystems, the meteorologically based Fire Weather Index (FWI) can be used. The Fire Weather Index (FWI) system, which is part of the Canadian Forest Fire Danger Rating System (CFFDRS), has been validated and recognized worldwide as one of the most trusted and important indicators for meteorological fire danger mapping. A number of FWI system components (Fire Weather Index, Drought Code, Initial Spread Index and Fire Severity Rating) were estimated and analysed in the current study for the Mediterranean area of France. Daily raster-based data-sets for the fire seasons (1st May–31st October) of a historic and a future time period were created for the study area based on representative concentration pathway (RCP) 4.5 and RCP 8.5 scenarios, outputs of CNRM-SMHI and MPI-SMHI climate models. GIS spatial analyses were applied on the series of the derived daily raster maps in order to provide a number of output maps for the study area. The results portray various levels of changes in fire danger, in the near future, according to the examined indices. Number of days with high and very high FWI values were found to be doubled compared to the historical period, in particular in areas of the Provence-Alpes-Côte d'Azur (PACA) region and Corsica. The areas with high Initial Spread Index and Seasonal Spread Index values increased as well, forming compact zones of high fire danger in the southern part of the study area, while the Drought Code index did not show remarkable changes. The current study on the evolution of spatial and temporal distribution of forest fire danger due to climate change can provide important knowledge to the decision support process for prevention and management policies of forest fires both at a national and EU level. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

34. Statistical study of extreme waves in eastern Mediterranean Sea for a 30-year historical period with the wave model WAM.

Author

Vlachogiannis, Diamando, Emmanouil, George, Politi, Nandia, and Sfetsos, Athanasios

Subjects
*ROGUE waves, *CLIMATE change, *PUBLIC spaces, *EXTREME value theory, *ATMOSPHERIC models, *WIND waves
Abstract

Wind and wavestorms play a very important role in the economy and social life of the areas affected. Extreme winds and waves may cause loss of properties, infrastructures and even human lives. Studying such weather events is a step towards protecting from and mitigating their impacts. Detailed knowledge of the severity, location and frequency of Windstorms and how they drive strong winds and extreme waves is the reason for creating a detailed database for the Eastern Mediterranean Sea area by using downscaled atmospheric input from the high-resolution WRF-ARW atmospheric model coupled to the WAM wave model. The first results from the analysis of trends and climate variations of extreme wave values for a 30-year period will be presented. The use of high horizontal resolution (0.05 degrees) will help towards this scope. [ABSTRACT FROM AUTHOR]

Published
2019

Catalog

Books, media, physical & digital resources
See catalog results