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This paper examines potential changes in solid waste policies for the reduction in GHG for the country of Brazil and one of its major states and cities, Rio de Janeiro, from 2005 to 2030. To examine these policy options, trends in solid waste quantities and associated GHG emissions are derived. Three alternative policy scenarios are evaluated in terms of effectiveness, technology, and economics and conclusions posited regarding optimal strategies for Brazil to implement. These scenarios are been building on the guidelines for national inventories of GHG emissions (IPCC, 2006) and adapted to Brazilian states and municipalities' boundaries. Based on the results, it is possible to say that the potential revenue from products of solid waste management is more than sufficient to transform the current scenario in this country into one of financial and environmental gains, where the negative impacts of climate change have created a huge opportunity to expand infrastructure for waste management.

Abstract The water-energy-food nexus has gained particular momentum in the fields of sustainable development and resource security in the last years. However, some scholars critically question the nexus by arguing that research is strongly shaped by western knowledge with a bias towards natural scientific, engineering and economic perspectives; whereas there is a lack of attention on local socio-political aspects and little contribution from social sciences. This paper provides a critical analysis of studies focused on the nexus in the Brazilian context or by Brazilian institutions. The main objectives are to assess whether research on the nexus in the Brazilian context shares common features with the international research; to identify the main nexus topics in this geographic context; and to examine if socio-economic challenges are considered, specifically regarding urbanization and poverty. Through a quantitative and qualitative analysis, the results show that Brazilian institutions lead research on the nexus in the Brazilian context, however the contribution from the social sciences remains marginal. Furthermore, quantitative methods are predominantly used over qualitative and hybrid methods. The research largely focuses on connections between water and energy in the hydropower and biofuels sectors, and it is based on discourses of efficiency, optimization, modelling and technological innovation. In addition, scholars have so far failed to address other important issues for sustainable development in Brazil and the Global South.

A compact sedan vehicle powered by a 1.4 dm3 spark ignition engine fueled with compressed natural gas (CNG), Brazilian gasoline, hydrous ethanol 95% v/v and wet ethanol 88% v/v was evaluated throughout the Worldwide harmonized Light vehicles Test Cycle (WLTC) key points. The vehicle operating points with longest residence time on the WLTC were selected to fuel consumption and emissions evaluation at steady state conditions. The top five key operating points reported in this work accounted for 22% of the total time spent in the entire cycle. The results indicated a significant reduction on greenhouse gases (GHG) emissions and energy demand for operation with CNG. The ethanol-water blends provided reduced emissions of nitrogen oxides (NOx), but increased specific fuel consumption, carbon monoxide (CO) and GHG emissions in comparison to CNG and gasoline. The operation with gasoline resulted in the minimum CO emissions for all fuels tested, as well as the best fuel consumption between liquid fuels, despite the highest values of carbon dioxide (CO2), and increased NOx. Even though ethanol produced little total unburned hydrocarbons (THC), the emissions of alcohols and aldehydes raised an alert for this renewable fuel, whereas CNG emitted the least amount of such pollutants.

Abstract Transition towards a renewable energy supply initiates a physical (re)shaping of places and a social transformation of communities into renewable energy communities. Although socio-cultural challenges of energy transition have been recognised ( Field, 2015 , IPCC, 2011 , Teske et al., 2015 ), understandings about socio-geographic places of energy transition and their underlying social processes and structures are insufficiently studied and often remain underestimated. To close this gap, we theoretically and empirically analysed the multifaceted interplay between place, local entrepreneurship and ‘community renewable energy’. Our study is based on an analysis of regional documents and policy reports, and on qualitative interviews undertaken with inhabitants in the case-study municipality of Reusenkoge (Germany). Our findings reveal two important aspects: Firstly, people's individual and shared place meanings which materialised in social, physical, historical and climate-related place-attachments and meanings of contested and innovative place are important ingredients bearing an impact on processes of adopting or rejecting renewables. Secondly, differentiated characteristics of entrepreneurs, namely grounded, collaborative, innovative, change-making, economic, communicating, networking and political aspects, appeared to be relevant for the acceptance and support in community-based renewable energy projects. Our findings reveal that energy policies, funding schemes and administrative structures should recognise local socio-geographic important elements in the context of a sustained and decentralised energy transition.

Biodiesel is an alternative to tackle global warming, especially for reducing greenhouse gases (GHG) emissions when replacing fossil fuels. However, it can compete for land with food production. Brazil is a global player on soybeans farming and most of the biodiesel produced in the country comes from it. This work proposes a new approach to evaluate its impact, associating land use change (LUC) analysis with life cycle assessment (LCA) in a representative Brazilian soybeans farming zone. LUC assessment used Landsat satellite imagery analysis from the years 1993 and 2013, and intergovernmental panel on climate change (IPCC) guidelines to estimate GHG emissions. LCA was based on field data collection processed with SimaPro®. Results show that the increment on annual GHG emissions per hectare, derived from the apportioning total emissions for the period studied, was 50.16 kg CO2 eq ha−1 y−1. From this increment, 97.1 % come from LUC, being the largest share from converting pastures to soybeans farming (81.2 % of the total emissions). However, in the area, a large share of converted pastures are degraded, acting as source of emissions, not as sink as considered by IPCC. At the same time, practices like no-tillage make soybeans a carbon sink. Therefore, results could change if alternative approaches were to be adopted, being a challenge for future work. Therefore, when considering biodiesel from soybeans, a close regard to local land use dynamics is essential to evaluate impacts. Besides, promoting more efficient use of land already cleared with the goal to avoid deforestation can turn biodiesel into a sustainable renewable energy source.

Abstract The growth of energy consumption, the ever extensive use of conventional fossil fuels from exhaustible resources and concerns about the environment have led to the development of sustainable renewable energy as a necessary global requirement. Today, the trend in the electrical sector is the generation of electrical power at low voltage. Distributed generation at low voltage enables consumers to contribute to the country’s energy mix system without large investments by governments. This means that dwellers are able to produce and inject electrical power into the grid thus enjoying the status of energy producer and also reducing the burden on the national electrical grid system. In order for this system to produce high quality energy in a safe and coordinated manner, stringent health & safety and technical measures must be implemented. Moreover, such systems require strong legal support and well-established contracts. Technical training of personnel, implementation of well established planned/corrective maintenance systems and electrical spare part availability are also crucial to the reliability and long term operation of such systems. The aims of the paper are to present the basis for development of renewable energy for household usage in countries such as Germany, Denmark, Spain and Brazil, in terms of technical requirements for electrical generation and grid connection at low voltage. In Brazil about 70% of the electricity comes from hydropower and around 50% of its automobiles run on renewable biofuel, which results in a low per capita emission. The country however faces some tough barriers to overcome in order to implement household generation from renewable sources. These will be discussed in due course.

Abstract States, regions, and municipalities have a growing importance in innovating policies to promote renewable sources of energy. This article examines the contribution of three state governments in developing and deploying wind and solar energy technologies in Brazil. The Brazilian electricity sector represents an interesting case of a middle-income country that is distinguished by strong federal involvement in energy governance and a reliance on hydroelectric power, followed by natural gas and coal. Using interviews conducted with policymakers and energy professionals, we find that regional energy transitions emerge as part of a process where state-level actors frame renewable energy choices primarily in terms of economic development opportunities and improving energy security. The engagement of regional institutions and organizations with energy priorities further influences the development of renewable technologies. The main policy implication is that state governments can have a strong role in the learning and niche formation of renewable alternatives that have been given less priority at the national level. This paper concludes that future policies should investigate how to scale up state renewable energy programs and initiatives.

A linear correlation between UV-A and 380 nm was developed by means of the TUV 4.1 radiative transfer model. The prediction error of the correlation was evaluated with data from Buenos Aires, Argentina, 2001, and from 2006, Almeria, Spain. Percent random mean square error (RMSE%) was calculated for intervals of 10° of solar zenith angles, ranging 4.75% at 20° to 37.70% at 90° in clear days and 22.16% at 20° to 26.17% at 90° for cloudy days in Buenos Aires Argentina, and 1.27% at 20° to 11.27% at 90° for clear days in Almeria, Spain. Clouded days were not assessed with the data from Spain. In Argentina, the UV-A radiometer is located in a rural area and the 380 nm radiometer is located in an urban area 6 km away. Hence the real error of the proposed model is closer to that found in Spain were both measurements were performed at the same site. The objective of the work is to achieve a simple and precise method to assess UV-A availability for environmental applications of solar energy, particularly for solar water treatment, at any desired latitude.

Abstract The need to find cleaner, safer and less expensive sources of fuel in the city of Manaus, capital of the state of Amazonas (AM) in Brazil is inevitable due, among other factors, to the historical situation of the petroleum-derived fuel’s large-scale use for power generation in the city by Brazil’s energy planning. In this context, the use of natural gas in the province of Urucu, in the city of Coari countryside of the state of Amazons, is the best short-term solution, which will enable the substitution of petroleum-derived liquid fuels for the natural gas in the thermoelectric power plants in the city of Manaus and in seven other cities in the state, which are favored by the Coari–Manaus pipeline’s main trajectory. This article presents the economic and environmental benefits with gas natural introduction in the energy matrix of isolated electrical system in Manaus. This project will be a great conquest for the city of Manaus, as a result of the Brazilian Energy Sector 20-year-planning, which will be completed in 2010, and will permit the beginning of a new growth-and-development cycle for the state of Amazonas and the Amazon itself.