Your search keyword '"Vuillermoz, Elisa"' showing total 8 results

1. Indoor air pollution exposure effects on lung and cardiovascular health in the High Himalayas, Nepal: An observational study

Author

Pratali, Lorenza, Marinoni, Angela, Cogo, Annalisa, Ujka, Kristian, Gilardoni, Stefania, Bernardi, Eva, Bonasoni, Paolo, Bruno, Rosa Maria, Bastiani, Luca, Vuillermoz, Elisa, Sdringola, Paolo, and Fuzzi, Sandro

Published

2019

2. On the Possible Wind Energy Contribution for Feeding a High Altitude Smart Mini Grid.

Author

Proietti, Stefania, Sdringola, Paolo, Castellani, Francesco, Garinei, Alberto, Astolfi, Davide, Piccioni, Emanuele, Desideri, Umberto, and Vuillermoz, Elisa

Abstract

The use of renewable energy sources to increase electricity access, especially in remote areas as high mountains, is a possible contribution to poverty reduction, climate change mitigation and improved resilience. In this paper an evaluation of the wind potential of a remote area in Nepal is performed, using CFD methods and the simulation of a micro wind turbine projected by Perugia University. With an accurate analysis of wind data and air density effects it is possible to test energy production potential in areas with high average wind speed. The overall estimated production for each turbine is an interesting result and an easily exportable contribution to the perspective of sustainable development at very high altitudes and remote areas. [ABSTRACT FROM AUTHOR]

Published

2015

3. Chapter 28: Chemical composition of fresh snow in the Himalaya and Karakoram.

Author

Polesello, Stefano, Comi, Michele, Guzzella, Licia, Marinoni, Angela, Pecci, Massimo, Roscioli, Claudio, Smiraglia, Claudio, Tartari, Gianni, Teti, Paola, Valsecchi, Sara, and Vuillermoz, Elisa

Abstract

The interpretation of firn and ice cores in high-altitude sites in central Asia requires a detailed knowledge of fresh-snow chemistry, especially in the extra-monsoon season. Since 1992 the Water Research Institute of CNR has been involved in sampling and analysis of wet and snow deposition in the Himalayan area. The first campaigns, which were based at the EV-K2-CNR Pyramid site in Khumbu Valley, were focused on the southern side of the Everest group in monsoon season with the aim of evaluating the long-range transport of inorganic pollutants from the Indian subcontinent to the Himalayan range. In the following years, involving climbing expeditions, we extended our research to other regions outside the monsoon season. This approach allowed us to get a better knowledge of spatial and temporal distribution of major ions in snow deposition of the Himalayan region. Furthermore, our results show that nitrate and ammonium concentrations can be biased by post-depositional gas absorption. In fact the interpretation of nitrate values in glaciochemistry is rather difficult because nitrate concentrations in snow are affected by post-exchange with the atmosphere over a broad range of environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2007

4. Chapter 10: The ABC-Pyramid: a scientific laboratory at 5079 m a.s.l the study of atmospheric composition change and climate.

Author

Bonasoni, Paolo, Laj, Paolo, Bonafè, Ubaldo, Calzolari, Francescopiero, Cristofanelli, Paolo, Marinoni, Angela, Roccato, Fabrizio, Facchini, Maria Cristina, Fuzzi, Sandro, Gobbi, Gian Paolo, Pichon, Jean-Marc, Venzac, Hervè, Sellegri, Karine, Villani, Paolo, Maione, Michela, Arduini, Jgor, Petzold, Andreas, Sprenger, Michael, Verza, Gian Pietro, and Vuillermoz, Elisa

Abstract

The Himalayan-Karakoram range is located in one of the most densely populated and very rapidly developing world areas. Monitoring of atmospheric composition in this area can play a relevant role in evaluating the background conditions of the free troposphere and quantifying the pollution present at high altitudes, as well as in studying regional and long-range transport phenomena. Due to technical and logistic difficulties in carrying out measurements at high altitude in the Himalaya, no systematic observations of atmospheric constituents are available for this area. Thus, a new measurement station in such a region represents a unique source of data, able to make up for the prior lack of this information. For these reasons, in the framework of the SHARE-Asia and ABC projects, a remote monitoring station, the ABC-Pyramid Laboratory, will be installed in the Khumbu valley near Mt. Everst at 5079 m a.s.l. Continuous in situ measurements of chemical, physical and optical properties of aerosol, surface ozone concentration, as well as non-continuous measurements of halocarbons and other greenhouse-gas concentrations will be carried out. This monitoring station was projected, realised and tested in Bologna at CNR-ISAC Institute during autumn 2005. It was designed to be controlled by remote login and to operate for the long-term in extremely adverse weather conditions. This station represents an ideal place for studying regional and long-range air mass transport, due to natural and human processes. Precious 5-day forecast information about air-masses circulation at the ABC-Pyramid site will be supplied daily by Lagrangian backward trajectories, including suitable forecasts of stratosphere-troposphere exchange phenomena. [ABSTRACT FROM AUTHOR]

Published

2007

5. Chapter 7: From Himalaya to Karakoram: the spreading of the project Ev-K2-CNR.

Author

Baudo, Renato, Schommer, Beth, Belotti, Chiara, and Vuillermoz, Elisa

Abstract

The Pyramid International Laboratory-Observatory is the symbol of the Ev-K2-CNR Project. The project actually began in 1987, when Prof. Ardito Desio, 90 years old at the time, enthusiastically launched a new geological and geodetic research campaign in the Himalayan area. However, it was only with the building of the Pyramid International Laboratory-Observatory, inaugurated by Prof. Desio himself in 1990, that the project acquired a unique ''logistic base'' for its scientific research. The laboratory, located at 5050m a.s.l. in the Khumbu Valley, on the Nepali side of Mount Everest, is in fact the first high-altitude scientific research center of its kind. It is self-sufficient in its energy supply and contains all common scientific instrumentation, making it a suitable place for studying climatic and environmental changes, medicine and human physiology in extreme conditions, geology, geodesy and seismic phenomena. Over time, a wealth of knowledge, initiatives and international relationships have been accumulated and continue to be added to by Ev-K2-CNR through research in the fields of medicine and physiology; environmental sciences, earth sciences, anthropological sciences and clean technologies. The Ev-K2-CNR Committee has been able to play a strategic role in the framework of collaboration amongst institutions, governments and organizations for the exchange and transfer of experiences, technologies and scientific and cultural knowledge. The increasingly interdisciplinary approach to research by the team has also led to the development of integrated programs for promoting the socio-economic development of local populations and environmental safeguarding in the region, such as the international Partnership initiative created through the Italian government around Ev-K2-CNR's expertise, or the regional Ev-K2-CNR Project ''Stations at High Altitude for Research on the Environment in Asia'' (SHARE-Asia), aimed at the establishment of a network of research and monitoring stations for the long-term study of evolutionary environmental processes in the Himalayan-Karakoram region, with a strong technology transfer and capacity-building component to the benefit of local populations and research institutions. [ABSTRACT FROM AUTHOR]

Published

2007

6. Preface.

Author

Baudo, Renato, Tartari, Gianni, and Vuillermoz, Elisa

Abstract

A preface for the January 2007 issue of "Mountains Witnesses of Global Changes" is presented.

Published

2007

7. On the contribution of renewable energies for feeding a high altitude Smart Mini Grid.

Author

Proietti, Stefania, Sdringola, Paolo, Castellani, Francesco, Astolfi, Davide, and Vuillermoz, Elisa

Subjects

*SMART power grids, *RENEWABLE energy sources, *HEAT storage devices, *ELECTRIC power production, *BOUNDARY value problems, *CLIMATE change

Abstract

Governments around the world strive to achieve ambitious targets of incorporating considerable amounts of distributed renewable generation and combined heat and power, in response to the climate-change challenge and the need to enhance fuel diversity. The scientific interest is moving toward off-grid power generation systems, based on conventional and/or renewable sources, often coupled with storage devices, which distribute power through a local grid network. This approach, applied to increase electricity access especially in remote areas, is effective to reduce poverty, mitigate climate change and improve the resilience. In this framework, the paper presents the assessment of different renewable sources for power generation in Nepal, aimed to (i) optimize the energy fluxes, (ii) evaluate the long term energy balance by comparing productions and consumption, (iii) preliminary size a multiple input/output storage device on the basis of specific boundary conditions. The study is geographically set within the Khumbu Valley, in the central part of the Himalayan Range, East Region of Nepal, recently damaged by severe seismic events causing serious consequences on population and territory. The specific features of the reference context have been assessed from different points of view, focusing on climate data, energy consumption, and available resources. Wind potential in several spots around Namche Bazar region was estimated using CFD methods, and a customized micro wind turbine – projected by University of Perugia – has been simulated to estimate a hourly production profile. With an accurate analysis of wind data and air density effects, it is possible to test energy production potential in areas with high average wind speed. The overall productions from wind turbines and solar PV panels were coupled with household load profiles; a storage system has been preliminary sized accounting technical and logistic aspects, e.g. charge limits of lead acid batteries and portability of the components in extreme conditions. Finally the avoided emissions were quantified in order to evaluate the mitigation effects on climate change. [ABSTRACT FROM AUTHOR]

Published

2017

8. Future hydrological regimes and glacier cover in the Everest region: The case study of the upper Dudh Koshi basin.

Author

Soncini, Andrea, Bocchiola, Daniele, Confortola, Gabriele, Minora, Umberto, Vuillermoz, Elisa, Salerno, Franco, Viviano, Gaetano, Shrestha, Dibas, Senese, Antonella, Smiraglia, Claudio, and Diolaiuti, Guglielmina

Subjects

*HYDROLOGY, *LAND cover, *GLACIERS, *SNOWMELT, *WATER supply management

Abstract

Assessment of future water resources under climate change is required in the Himalayas, where hydrological cycle is poorly studied and little understood. This study focuses on the upper Dudh Koshi river of Nepal (151 km 2 , 4200–8848 m a.s.l.) at the toe of Mt. Everest, nesting the debris covered Khumbu, and Khangri Nup glaciers (62 km 2 ). New data gathered during three years of field campaigns (2012–2014) were used to set up a glacio-hydrological model describing stream flows, snow and ice melt, ice cover thickness and glaciers' flow dynamics. The model was validated, and used to assess changes of the hydrological cycle until 2100. Climate projections are used from three Global Climate Models used in the recent IPCC AR5 under RCP2.6, RCP4.5 and RCP8.5. Flow statistics are estimated for two reference decades 2045–2054, and 2090–2099, and compared against control run CR, 2012–2014. During CR we found a contribution of ice melt to stream flows of 55% yearly, with snow melt contributing for 19%. Future flows are predicted to increase in monsoon season, but to decrease yearly (− 4% vs CR on average) at 2045–2054. At the end of century large reduction would occur in all seasons, i.e. − 26% vs CR on average at 2090–2099. At half century yearly contribution of ice melt would be on average 45%, and snow melt 28%. At the end of century ice melt would be 31%, and snow contribution 39%. Glaciers in the area are projected to thin largely up to 6500 m a.s.l. until 2100, reducing their volume by − 50% or more, and their ice covered area by − 30% or more. According to our results, in the future water resources in the upper Dudh Koshi would decrease, and depend largely upon snow melt and rainfall, so that adaptation measures to modified water availability will be required. [ABSTRACT FROM AUTHOR]

Published

2016