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Monthly Indian energy and activity data used for estimating India's monthly fossil CO2 emissions. Data are collated from a large number of source files, all in the public domain, and documented in the journal article of the same title. NOTE: These data are being regularly updated here: https://robbieandrew.github.io/india/.

Project TradeRES - New Markets Design & Models for 100% Renewable Power Systems N/A

In these times of constant precariousness and insecurity, debates on the need for environmental sustainability are on the increase. There is a need to regenerate urban areas both by transforming the existing heritage while respecting historical memory, and by proposing "renewed" neighbourhoods with smartness, according to the use of renewable energy sources, eco-building, intelligent mobility, with a view to ecological transition. Immediate responses are needed to resource depletion on the one hand and the need to protect the quality of natural and environmental capital on the other. To achieve these goals, cities are called upon to play the role of drivers of sustainable development. By enhancing ecological quality, sustainability and resilience, cities will make a decisive contribution to the well-being of their citizens and the growth of local development. The design reference is the "green city", which focuses on the quality of the urban environment, the circularity of resources, mitigation of the causes of climate change and green growth and redevelopment, with a multi-sector methodological approach integrated with planning and based on the BPCI method "Bioclimatic Park City Immersive" (this means immerge the city into a bioclimatic park). This green approach already appears in the international policy documents Global Green New Deal by UNEP in 2008 and Towards Green Growth by OECD in 2010. [1] The key factors and methodologies of intervention are based on the interaction between Green Economy, Green City and Adaptive and Resilient Design, whose proposals can support the overcoming of urban/environmental degradation in terms of physical recovery, environmental rehabilitation and energy improvement, integrated with the enhancement of the existing heritage.

The world of business is rapidly changing, not only thanks to digitization and technological transformation, but also to address challenges related to the environment and climate change, and to reduce its impact in terms of waste, emissions, and raw materials. The COVID-19 crisis and the European Green New Deal have also accelerated this transformation process. In this context, companies must be able to evaluate their commitment and contribution to sustainable development, and to adopt lower impact business models. To achieve this aim, companies need easy and accessible measurement tools. The tools currently available are based on quantitative or statistical approaches and require the process of large amounts of data. This approach is easily accessible to large companies, while small companies or craft businesses may be scared off, as they may lack the structures and expertise. This study fills this gap by presenting an innovative and easy-to-access methodology for assessing sustainability in companies. Through a qualitative assessment of interdependence among nine categories grouping multiple environmental, social, and governance indicators, companies can evaluate their impact on the 17 SDGs and on the 3 ESG dimensions. The result can be used by the companies to design strategies for their businesses and plan future actions to improve circular models, thanks to the awareness and benefits gained from the analysis. The methodology has been applied to the case study of Ohoskin © 2021,

An estimated 14 percent of the total food produced for human consumption is lost, while 17 per cent is wasted. This is enough to feed around 1 billion people in a world where currently 811 million people are hungry and 3 billion cannot afford a healthy diet. The lack of effective refrigeration is a leading contributor to this challenge, resulting in the loss of 12 percent of total food production, in 2017. Moreover, the food cold chain is responsible for 4 percent of global greenhouse gas emissions, including from cold chain technologies and food loss and waste due to lack of refrigeration. This report explores how food cold chain development can become more sustainable and makes a series of important recommendations. These include governments and other cold chain stakeholders collaborating to adopt a systems approach and develop National Cooling Action Plans, backing plans with financing and targets, implementing and enforcing ambitious minimum efficiency standards. The Montreal Protocol on Substances that Deplete the Ozone Layer - a universally ratified multilateral environmental agreement - can contribute to mobilizing and scaling up solutions for delivering sustainable, efficient, and environmentally friendly cooling through its Kigali Amendment and Rome Declaration. Reducing non-CO2 emissions, including refrigerants used in cold chain technologies is key to achieve the Paris Agreement targets, as highlighted in the latest mitigation report from the Intergovernmental Panel on Climate Change (IPCC). At a time when the international community must act to meet the Sustainable Development Goals, sustainable food cold chains can make an important difference.

Organic photovoltaic offers energy from a widely available and naturally replenished source, with relevant advantages of low-cost, easy fabrication, solution processability, light weight, transparency, and mechanical flexibility. Unfortunately the huge use of harmful halogenated aromatic solvents in the processing together with that of a critical metal as Indium is in the transparent electrode, have limited the industrial implementation of this technology so far. We developed an aqueous ink made of nanoparticles of blended semiconducting polymers/fullerene derivative to fabricate the active layer, and tried to deposit it onto an electrode made on Silver nanoparticles prepared in a PS-co-P4VP matrix and then blended with PEDOT. Different deposition methods were tried, spin coating and micro-contact printing and the prepared films were characterized by AFM ,TEM etc.

Storing the power which exceeds the capability of the grid is necessary to increase the diffusion of Renewable Energy Sources. Combining the carbon of coal with electrolytic hydrogen from RES's results in a mixture of methane and hydrogen with characteristics close to those of natural gas. In such a way the drawbacks of RES's will be solved and the global carbon dioxide emissions will be reduced. In another paper we analysed coal hydro-gasification. Such a process allows to obtain the maximum conversion of coal to methane, but does not use the electrolytic oxygen generated. In this paper we considered the use of such an oxygen to gasify part of the coal obtaining a syngas that could be processed in a water gas shift reactor. In this way, after carbon dioxide separation, an additional flow of hydrogen is available to carry out the hydro-gasification of coal. As a result the process burns a higher amount of coal, while requires a lower amount of electric power. As in the other paper we carried out a simulation using AspenONE® v8.4 and considering some European regions characterised by availability of coal seams and wind.

A frequência de sistemas frontais sobre o sul da América do Sul identificada na reanálise do NCEP/NCAR é comparada com as simulações dos modelos GFDL e Hadley e projetadas no clima futuro. As análises para identificar casos de sistemas frontais foram feitas em três regiões que cobrem áreas do Brasil, Uruguai, Paraguai e Argentina. Esta análise foi realizada com o fim de investigar as características de eventos extremos no clima presente e em projeções do clima futuro. Para o clima presente observou-se que os modelos analisados simularam bem as características sinóticas dos sistemas frontais. No entanto, quando se compara a frequência de ocorrência das frentes entre a reanálise e as simulações, observa-se que os modelos GFDL e Hadley superestimam seu número e apenas o GFDL consegue reproduzir a variabilidade mensal. O modelo Hadley superestima ainda mais em relação ao NCEP e GFDL no clima presente. A tendência positiva no número de frentes observada na área 3 (65ºW-60ºW, 33ºS-38ºS) nos resultados da reanálise não é simulada pelos modelos. Quando os casos mais intensos são selecionados, o modelo GFDL é o que superestima mais o número de sistemas frontais. Os dois modelos indicam aumento na frequência de sistemas frontais no futuro nas três áreas, porém em menor proporção na área 3.The frequency of frontal systems reaching the south of South America is compared with reanalysis NCEP/NCAR and results of GFDL and Hadley models for the future climate. Three regions were analyzed to identify the frontal systems, in areas of Brazil, Uruguay, Paraguay and Argentina. The following criteria were used: increase of sea surface pressure, reduction of the temperature and change of the meridional wind at 850hPa, in two consecutive days. Selected cases with temperature drop above five degrees, considered the most intense, were also analyzed. For the present climate it was observed that the models simulated well the synoptic characteristics of frontal systems. However, when comparing the frequency of frontal occurrence between reanalysis data and models simulations, the GFDL and Hadley models overestimated their numbers. The Hadley model overestimates further more than the NCEP and GFDL in present climate. The positive trend observed in area 3 (65ºW-60ºW, 33ºS-38ºS) from NCEP reanalysis is not simulated by the models. When the most intense systems are selected, the GFDL model shows higher overestimation in number of frontal systems. Both models indicate an increase of frontal systems frequency in future in the three areas, although less in area 3.

As stated in the European Green Deal: "to tackle climate and environmental-related challenges is this generation defining task". Young generations represent a juncture between understanding the potential hazardous impact of climate change on society and local communities. In this frame, STEAM education in school proved its ability to nurture students' curiosity and cognitive resources, provide them with the right tools to understand the world's complexity and face the challenges that the current times are posing, like climate change, among many others. However, STEAM subjects are not always part of educational curricula: according to the OECD Programme for International Student Assessment (PISA) report 2018, more than 20% of pupils in the European Union has insufficient proficiency in reading, mathematics, or science. Such a lack of diversity in the offer may decrease pupils' motivation to pursue STEAM academic paths, often perceived as highly theoretical and complex. The improvement of STEAM education in secondary schools is the core objective of the Erasmus+ funded project "GIS4Schools", which aims at promoting a new innovative approach to foster the teaching of STEAM subjects in secondary schools across four different European countries: Italy, Portugal, Romania, and Spain. The project intends to introduce the education of GIS and satellite technologies for Earth Observation- rarely adopted in secondary schools- and applying them to the thematic area of Climate Change. GIS4Schools combines Inquiry-Based Science Education (IBSE) with Problem Based Learning (PBL) approaches to an interdisciplinary contextualisation of the science topic. Pupils actively contributes to the co-creation of new knowledge by assessing with GIS tools the impacts of specific climate challenges affecting their local community thanks to Copernicus products, Sentinels' satellite-derived information, and other ancillary data. The paper illustrates the genesis of the project, and more specifically, the process leading to the development of training packages for secondary schools' teachers and pupils. Furthermore, the paper explores which methodology and pedagogic approach must be adopted to transfer new knowledge from teachers to pupils. The paper also describes how the teaching of GIS and satellite technologies for Earth observation in secondary school can impact pupils' perception of STEAM subjects and how this can impact their future academic careers. Specific attention is also dedicated to the description of the innovative tools developed and applied for monitoring and evaluation.