The current worldwide state of energy scarcity and low waste utilization has led to a decrease in the supply of ecological services, something that seriously affects the development of cities. In this study, we propose an urban self-circulation design based on multiple systems within the traditional biogas, wetland, rainwater, solar power, and urban farm systems framework to achieve effective improvements in urban waste utilization and the optimization of the urban waste–energy flow cycle. Emergy conversion is used to evaluate system optimization, and the simulation results show that the novel proposed system can effectively improve urban waste utilization with an energy output rate of 3.18 × 10, an environmental load of 4.27 × 10−2, and a ...
This paper proposes a methodology to optimize the mixture of renewable and alternative energy resour...
There are new approaches to environmentally sound technologies for water, energy and waste systems i...
“At the same time that we must respond to climate change and rising energy costs, we must also adjus...
This study proposes a curtailment-minimization model to investigate the potential of urban bio-waste...
The world is urbanizing fast and this increases the pressure on available resources. In a world of c...
The share of intermittent renewable electricity (IRE) in the future urban electricity system is expe...
AbstractWith limited natural resources and infrastructures in urban regions, rapid urbanization is a...
Energy, water, and waste systems analyzed at a nexus level are important to move toward more sustain...
Energy, water and waste systems analyzed at a nexus level is key to move towards more sustainable ci...
The industrial revolution and the exploitation of fossil fuels fostered profound changes on transpor...
Urban waste management is one of the most challenging issues in energy planning of medium and large ...
The urban sustainability is a growing importance in the built environment research. Urban areas play...
Sponge cities have been recognized as the major measures to deal with urban drainage and waterloggin...
Our current cities are highly dependent on their hinterlands or other cities for their essential res...
Abstract Our cities are built dependent on centralized systems of water and waste management, food a...
This paper proposes a methodology to optimize the mixture of renewable and alternative energy resour...
There are new approaches to environmentally sound technologies for water, energy and waste systems i...
“At the same time that we must respond to climate change and rising energy costs, we must also adjus...
This study proposes a curtailment-minimization model to investigate the potential of urban bio-waste...
The world is urbanizing fast and this increases the pressure on available resources. In a world of c...
The share of intermittent renewable electricity (IRE) in the future urban electricity system is expe...
AbstractWith limited natural resources and infrastructures in urban regions, rapid urbanization is a...
Energy, water, and waste systems analyzed at a nexus level are important to move toward more sustain...
Energy, water and waste systems analyzed at a nexus level is key to move towards more sustainable ci...
The industrial revolution and the exploitation of fossil fuels fostered profound changes on transpor...
Urban waste management is one of the most challenging issues in energy planning of medium and large ...
The urban sustainability is a growing importance in the built environment research. Urban areas play...
Sponge cities have been recognized as the major measures to deal with urban drainage and waterloggin...
Our current cities are highly dependent on their hinterlands or other cities for their essential res...
Abstract Our cities are built dependent on centralized systems of water and waste management, food a...
This paper proposes a methodology to optimize the mixture of renewable and alternative energy resour...
There are new approaches to environmentally sound technologies for water, energy and waste systems i...
“At the same time that we must respond to climate change and rising energy costs, we must also adjus...