888 resultados para Compressed natural gas.
Resumo:
Accounting for around 40% of the total final energy consumption, the building stock is an important area of focus on the way to reaching the energy goals set for the European Union. The relatively small share of new buildings makes renovation of existing buildings possibly the most feasible way of improving the overall energy performance of the building stock. This of course involves improvements on the climate shell, for example by additional insulation or change of window glazing, but also installation of new heating systems, to increase the energy efficiency and to fit the new heat load after renovation. In the choice of systems for heating, ventilation and air conditioning (HVAC), it is important to consider their performance for space heating as well as for domestic hot water (DHW), especially for a renovated house where the DHW share of the total heating consumption is larger. The present study treats the retrofitting of a generic single family house, which was defined as a reference building in a European energy renovation project. Three HVAC retrofitting options were compared from a techno-economic point of view: A) Air-to-water heat pump (AWHP) and mechanical ventilation with heat recovery (MVHR), B) Exhaust air heat pump (EAHP) with low-temperature ventilation radiators, and C) Gas boiler and ventilation with MVHR. The systems were simulated for houses with two levels of heating demand and four different locations: Stockholm, Gdansk, Stuttgart and London. They were then evaluated by means of life cycle cost (LCC) and primary energy consumption. Dynamic simulations were done in TRNSYS 17. In most cases, system C with gas boiler and MVHR was found to be the cheapest retrofitting option from a life cycle perspective. The advantage over the heat pump systems was particularly clear for a house in Germany, due to the large discrepancy between national prices of natural gas and electricity. In Sweden, where the price difference is much smaller, the heat pump systems had almost as low or even lower life cycle costs than the gas boiler system. Considering the limited availability of natural gas in Sweden, systems A and B would be the better options. From a primary energy point of view system A was the best option throughout, while system B often had the highest primary energy consumption. The limited capacity of the EAHP forced it to use more auxiliary heating than the other systems did, which lowered its COP. The AWHP managed the DHW load better due to a higher capacity, but had a lower COP than the EAHP in space heating mode. Systems A and C were notably favoured by the air heat recovery, which significantly reduced the heating demand. It was also seen that the DHW share of the total heating consumption was, as expected, larger for the house with the lower space heating demand. This confirms the supposition that it is important to include DHW in the study of HVAC systems for retrofitting.
Resumo:
Os betões autocompactáveis (BAC) são betões que se definem pela capacidade de fluir no interior das cofragens, preenchendo-as e envolvendo as armaduras só por acção do seu próprio peso, sem bloqueio dos agregados e mantendo-se homogéneo em todo o seu volume. As adições activas do tipo II nomeadamente as cinzas volantes, utilizadas na fabricação do BAC irão escassear no futuro pelo facto de provirem da queima do carvão da qual resulta uma quantidade elevada de C02. Para minimizar estas emissões, o carvão começa a ser substituído por gás natural. Mas, como o BAC necessita duma grande quantidade de finos, há necessidade de encontrar outros subprodutos que a substituam. Tendo em conta o que atrás se afirma introduziram-se na fabricação do BAC resíduos de pedreira do Alentejo, identificaram-se as suas características no estado fresco e no estado endurecido. Este estudo teve também em conta o factor económico da sua produção. /ABSTRACT: Self-Compacting (SCC) is concrete which may be defined by the ability to flow inside the formwork, filling them and involving the reinforcements only by action of its own weight, without blocking and maintaining uniformity throughout its volume. Type II additions, as fly ash, are used in the manufacture of SCC. The supply of fly ash in the future will be difficult because they come from the burning of coal resulting in a high amount of C02. To minimize these emissions, coal is being replaced by natural gas. But, as the BAC requires a large amount of fine materials, the formulation of SCC requires other fine products. Having this in mind, the use of waste from Alentejo quarries in concrete was tested. The characteristics of SCC with waste material were identified in fresh and hardened state. This study also took into account the economic factor of production.
Resumo:
In this paper, we measure the degree of fractional integration in final energy demand in Portugal using an ARFIMA model with and without adjustments for seasonality. We consider aggregate energy demand as well as final demand for petroleum, electricity, coal, and natural gas. Our findings suggest the presence of long memory in all of the components of energy demand. All fractional-difference parameters are positive and lower than 0.5 indicating that the series are stationary, although with mean reversion patterns slower than in the typical short-run processes. These results have important implications for the design of energy policies. As a result of the long-memory in final energy demand, the effects of temporary policy shocks will tend to disappear slowly. This means that even transitory shocks have long lasting effects. Given the temporary nature of these effects, however, permanent effects on final energy demand require permanent policies. This is unlike what would be suggested by the more standard, but much more limited, unit root approach, which would incorrectly indicate that even transitory policies would have permanent effects
