AVERAGE HEAT TRANSFER OF TUBES IN DOWNWARD FOAM FLOW

The model of heat exchanger was investigated experimentally. This model consists of three vertical lines of horizontal tubes with five tubes in each. Tubes were arranged in a staggered order. Heat transfer of staggered bundle of tubes to downward static stable foam flow was investigated experimentally. Heat transfer dependence on specific gas and liquid velocity was determined. Dependence of volumetric void fraction of foam on heat transfer was investigated also. Heat transfer rate dependence on tube position in the line of tube bundle was investigated experimentally. It was established that heat transfer rate highly depends on tube position in the line. Influence of tube position on heat transfer from tube bundle in upward foam flow was compared. Heat transfer dependence on tube position in the bundle was investigated experimentally also. Influence of wall of foam generator on heat transfer to sideline of tubes was established. Experimental results of heat transfer of bundle of tubes to downward static stable foam flow were generalized using dependence between Nusselt and Reynolds numbers

Calculating Domestic Environmental Impacts: Challenging and Solutions for an Interactive Configurator

The domestic consumptions are commonly claimed to be more than 60% of global GHG emissions and between 50 and 80% of total land, material and water use. In the last few years, a lot of methods and tools to estimate those impacts have been proposed in the literature and diffused on public administration portals (e.g. European Commissioner for the Environment) and on private Websites. However, an overall analysis of all the factors that contribute to the consumption of an entire home and the development of a support tool is still lacking. This paper discusses the main parameters to be considered for the analysis and the methods for calculating the environmental impacts, and it proposed a supported tool, in the form of an interactive configurator. It allows the user to enter the main data about her/his own home, the constituting components (e.g. appliances) and her/his habits and behaviours (i.e. ways of use), and then, after the processing, it provides the results, in terms of environmental impacts (kg of equivalent CO2) of the entire home and the constituting components, by also showing possible more sustainable alternatives