This paper presents a method for urban resilience quantification from the energy metabolism perspective, taking into account different sustainability dimensions and introducing such aspects as environmental, social, economic, technical and risk aspects. The aim is to develop a methodology for resilience index quantification for urban thermal energy system taking into account different levels of urban energy metabolism - production, supply and use, and approbate it on the real Latvian, Lithuanian and Estonian cities examples. The proposed approach includes a set of indicators to be used within the scope of thermal energy metabolism. The analysis is supposed to end with identification of the “weak points” of each studied energy system in orde...
In recent years, the effects of climate change on urban areas have pushed more and more policy-maker...
Nowadays the international acknowledgement appeared that the world facing the consequences of the cl...
The way we make sense of urban areas stands at a critical point. To reduce energy use in cities, we ...
AbstractThis paper presents a method for urban resilience quantification from the energy metabolism ...
AbstractIt is now widely acknowledged that climate change is occurring as a result of anthropogenic ...
AbstractBetween 60% and 80% of global energy is consumed in urban areas and given the projected incr...
Nowadays, resilience is a necessary component for a sustainable development of cities. Achieving inc...
Today, humanity is experiencing an "urban age", and therefore issues of good management of energy co...
The work proposes a technique to improve the infrastructure and energy resilience of new development...
Various sources indicate that threats to modern cities lie in the availability of essential streams,...
The EU project SmartResilience aims to develop methods for practical assessment of the resilience of...
Urban metabolism has been advanced as an approach to quantifying energy and resource use and supply ...
Assessing the sustainability of urban energy systems and forecasting their development are important...
In respect to the numerous environmental challenges that cities have to face in the next future, nam...
Methods for assessing the resilience of smart critical infrastructures (SCIs) has been developed in ...
In recent years, the effects of climate change on urban areas have pushed more and more policy-maker...
Nowadays the international acknowledgement appeared that the world facing the consequences of the cl...
The way we make sense of urban areas stands at a critical point. To reduce energy use in cities, we ...
AbstractThis paper presents a method for urban resilience quantification from the energy metabolism ...
AbstractIt is now widely acknowledged that climate change is occurring as a result of anthropogenic ...
AbstractBetween 60% and 80% of global energy is consumed in urban areas and given the projected incr...
Nowadays, resilience is a necessary component for a sustainable development of cities. Achieving inc...
Today, humanity is experiencing an "urban age", and therefore issues of good management of energy co...
The work proposes a technique to improve the infrastructure and energy resilience of new development...
Various sources indicate that threats to modern cities lie in the availability of essential streams,...
The EU project SmartResilience aims to develop methods for practical assessment of the resilience of...
Urban metabolism has been advanced as an approach to quantifying energy and resource use and supply ...
Assessing the sustainability of urban energy systems and forecasting their development are important...
In respect to the numerous environmental challenges that cities have to face in the next future, nam...
Methods for assessing the resilience of smart critical infrastructures (SCIs) has been developed in ...
In recent years, the effects of climate change on urban areas have pushed more and more policy-maker...
Nowadays the international acknowledgement appeared that the world facing the consequences of the cl...
The way we make sense of urban areas stands at a critical point. To reduce energy use in cities, we ...