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Evaluation Method of Energy Consumption in Logistic Warehouse Systems electronic resource by Pawel Zajac.

By: Zajac, Pawel [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: EcoProduction, Environmental Issues in Logistics and ManufacturingPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Edition: 1st ed. 2015Description: XVIII, 158 p. 45 illus., 26 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319220444Subject(s): Energy | Energy efficiency | Production management | Sustainable development | Energy | Energy Efficiency (incl. Buildings) | Operations Management | Sustainable DevelopmentDDC classification: 658.26 LOC classification: T58.8Online resources: Click here to access online
Contents:
Introduction -- Thesis -- Literature overview -- Methods to assess the energy consumption of LSM -- Experimental research results -- Verification of the model evaluation of LSM -- Summary and conclusions -- Utilitarian results -- Literature.
In: Springer eBooksSummary: This book focuses on guidelines for reducing the energy consumption in warehousing processes. It presents a model of formal assessment for energy consumption in the context of storage-system logistics, as well as a computational model consisting of three sub-models: energy consumption models for forklifts and stacker cranes, respectively, and an energy intensity model for roller conveyors. The concept model is based on the assumption that the unit load is received at a zero-energy warehouse. Subsequent handling, transport and storage processes, in which the unit load is moved vertically and horizontally through the system, equate to changes in energy intensity within the logistics warehouse management system. Energy recovery based on the handling equipment used can be collected in batteries. The evaluation method takes into account the intensity of the energy supplied to the logistics system and reduces the storage of the recovered energy - this figure represents the energy needed to pass through the logistics unit load storage system, and can be expressed in an energy intensity map. .
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Introduction -- Thesis -- Literature overview -- Methods to assess the energy consumption of LSM -- Experimental research results -- Verification of the model evaluation of LSM -- Summary and conclusions -- Utilitarian results -- Literature.

This book focuses on guidelines for reducing the energy consumption in warehousing processes. It presents a model of formal assessment for energy consumption in the context of storage-system logistics, as well as a computational model consisting of three sub-models: energy consumption models for forklifts and stacker cranes, respectively, and an energy intensity model for roller conveyors. The concept model is based on the assumption that the unit load is received at a zero-energy warehouse. Subsequent handling, transport and storage processes, in which the unit load is moved vertically and horizontally through the system, equate to changes in energy intensity within the logistics warehouse management system. Energy recovery based on the handling equipment used can be collected in batteries. The evaluation method takes into account the intensity of the energy supplied to the logistics system and reduces the storage of the recovered energy - this figure represents the energy needed to pass through the logistics unit load storage system, and can be expressed in an energy intensity map. .

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