Capitulo de libro
DESIGN OF AN URBAN SOLID WASTE TRANSPORT SYSTEM
THE SUSTAINABLE CITY II: URBAN REGENERATION AND SUSTAINABILITY
Registro en:
1000585
1853129178
978-1853129179
Autor
Garrido Hidalgo, Rodrigo Andres
Institución
Resumen
The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city.The objective of this article is to present the design of a non-hazardous solid waste collection system in an urban context. The system is formed by three
activities: optimal location of transference centers, optimal location of sanitary landfills, and flow distribution over the urban transport network in order to
minimize the total cost for the whole operation. The total cost is formed by transportation costs and opening costs for centers and plants, A strategic
mathematical model is developed to simultaneously solve the location and distribution problems described above. The model is a mixed continuous-integer
programming model that gives the number and location of transfer centers and sanitary landfills as well as the flows and routes followed by the waste fkom the
generation centers (typically residential areas and industrial zones) to the final destination in the transformation plants. The model was applied to the city of
Santiago, Chile, The model was solved using a heuristic approach which gave a solution less expensive than the one currently being used in the city. FONDECYT 1072 FONDECYT