Abstract Background Currently, most of the world’s population lives in cities, and the rapid urbanization of the population is driving increases in the demand for products, goods and services. To effectively design policies for urban sustainability, it is important to understand the trends of flows in energy and materials as they enter and leave a city. This knowledge is essential for determining the key elements characterizing future urban growth and addressing future supply challenges. Methods This paper presents an analysis of the energy and material flows in the city of Bogotá over the time span from 2001 to 2017. Urban flows are also characterized in terms of their temporal evolution with respect to population growth to compare and ide...
Many cities are facing environmental challenges with rapid urbanisation and industrialisation. It is...
This study examined the flow of selected resources in Sorsogon City using the urban metabolism appro...
The population growth living in urban areas reaches 50% of the total, causing polluting air and ener...
Understanding the drivers of energy and material flows of cities is important for addressing global ...
Understanding the drivers of energy and material flows of cities is important for addressing global ...
Since the Industrial Revolution great socio-metabolic transitions have occurred changing radically o...
With more than half the world population now urbanised, urban metabolism – defined as the throughput...
Antecedentes: Actualmente, la mayor parte de la población mundial vive en ciudades, y la rápida urba...
Urban metabolism (UM) is a way of characterizing the flows of materials and energythrough and within...
Abstract: As cities have become home for 50% of the world's population, urban systems have defi...
International audienceUrban areas, in particular cities, are significant consumers of materials and ...
Urban policy makers and researchers consistently recognize the challenge of more effectively reshapi...
Knowledge about the characteristics and driving forces of material flows in urban areas is crucial, ...
AbstractThe global trend towards urbanization means that over half of the world's population now liv...
This chapter presents the main conclusions of two comparative research programmes exploring urban en...
Many cities are facing environmental challenges with rapid urbanisation and industrialisation. It is...
This study examined the flow of selected resources in Sorsogon City using the urban metabolism appro...
The population growth living in urban areas reaches 50% of the total, causing polluting air and ener...
Understanding the drivers of energy and material flows of cities is important for addressing global ...
Understanding the drivers of energy and material flows of cities is important for addressing global ...
Since the Industrial Revolution great socio-metabolic transitions have occurred changing radically o...
With more than half the world population now urbanised, urban metabolism – defined as the throughput...
Antecedentes: Actualmente, la mayor parte de la población mundial vive en ciudades, y la rápida urba...
Urban metabolism (UM) is a way of characterizing the flows of materials and energythrough and within...
Abstract: As cities have become home for 50% of the world's population, urban systems have defi...
International audienceUrban areas, in particular cities, are significant consumers of materials and ...
Urban policy makers and researchers consistently recognize the challenge of more effectively reshapi...
Knowledge about the characteristics and driving forces of material flows in urban areas is crucial, ...
AbstractThe global trend towards urbanization means that over half of the world's population now liv...
This chapter presents the main conclusions of two comparative research programmes exploring urban en...
Many cities are facing environmental challenges with rapid urbanisation and industrialisation. It is...
This study examined the flow of selected resources in Sorsogon City using the urban metabolism appro...
The population growth living in urban areas reaches 50% of the total, causing polluting air and ener...