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2018 | Buch

Integrated Planning of Heat Flows in Production Systems

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The book presents an integrated planning concept for heat flows in production systems comprising various short term and long term related models. Detailed explanations about the modeling and implementation of all relevant system elements such as generic and specific machines types, technical building services (TBS), production planning and control aspects, heat storage units and (waste) heat designs follow. Due to resulting amounts of data, the concept foresees system level appropriate indicators and visualizations for a facilitatedevaluation of the model results. An application procedure embeds and describes all models as well.Three exemplary application cases demonstrate the applicability, including the manufacturing of shafts for automotive transmissions, a cooling water system and an academic learning environment.

Inhaltsverzeichnis

Frontmatter
Chapter 1. Introduction
Abstract
The book starts by explaining the underlying motivation and resulting problem statement (Sect. 1.1). Based on that, the chapter derives a research objective as well as a work structure (Sect. 1.2).
Denis Kurle
Chapter 2. Heat Flows in Production Systems and its Modeling and Simulation
Abstract
This chapter introduces the theoretical foundation of the book by describing relevant terms and concepts of production systems in general and heat flows in particular (Sect. 2.1). It further presents two modeling methods to capture the behavior of heat flows in production systems and to provide design related options for improvements (Sect. 2.2). The chapter ends with a summary of preliminary findings concerning heat flows in production systems and its modeling methods (Sect. 2.3).
Denis Kurle
Chapter 3. State of Research
Abstract
This chapter identifies, analyzes and evaluates existing research approaches in context of planning heat flows in production systems. For this purpose, specific evaluation criteria and sub-criteria are formulated first (Sect. 3.1). Due to the extent of the topic, the core field of research is delimited from other interesting but rather adjacent fields of research (Sect. 3.2). A detailed review of identified approaches from the core field of research helps to understand the unique character of each approach (Sect. 3.3). A comparative overview and discussion of those approaches subject to the initially defined evaluation criteria reveals existing gaps of each approach and states the basis for future research demand (Sect. 3.4).
Denis Kurle
Chapter 4. Concept for an Integrated Planning of Heat Flows in Production Systems
Abstract
The introduction of an integrated planning concept for heat flows is motivated by the identified discrepancy between existing approaches and defined requirements. To close this discrepancy and further elaborate on this issue, the chapter first formulates different objectives, requirements and potential stakeholders for an appropriate concept (Sect. 4.1). Based on those objectives and requirements, a system perspective is derived which is capable of including and reflecting all relevant system levels (Sect. 4.2). Those aspects are broad together in the developed model concept which is embedded into a problem solving process, provides various models as well as their interactions to perform diverse evaluations, and enhance an interdisciplinary system understanding. The models are described regarding both the conceptual logic as well as considerations for implementation (Sect. 4.3). In more detail, the existing heat flows in production systems demonstrate the necessity to use an integrated approach in order to gain a sound system understanding. Thus, it is described how the different system entities can be modeled (Sect. 4.4). Different analysis and visualization methods per system level further facilitate the understanding of individual system entity’s performance (Sect. 4.5) as well as their impact and repercussions on other system levels. Those methods interact with the system entity models. The chapter closes with an application procedure explaining how the concept can be used in practice (Sect. 4.6).
Denis Kurle
Chapter 5. Exemplary Application of Concept
Abstract
The chapter presents three different application cases of the developed concept and its models to underline their applicability and potentials. Although each application case follows the proposed application procedure, case specific features in terms of practical relevance and implication are emphasized individually per case and procedural step. Therefore, the generic character of the developed concept is tailored to meet the requirements of a components manufacturing (Sect. 5.1), a cooling water system (Sect. 5.2) as well as an integration into a learning factory (Sect. 5.3). The two industrial application cases base on real data, which is why many values have been altered by correction factors due to reasons of confidentiality.
Denis Kurle
Chapter 6. Summary and Outlook
Abstract
The final chapter of the book recapitulates the presented work (Sect. 6.1) and provides a critical review on the accomplished results (Sect. 6.2).The book closes with an outlook on future research work (Sect. 6.3)
Denis Kurle
Backmatter
Metadaten
Titel
Integrated Planning of Heat Flows in Production Systems
verfasst von
Dipl.-Ing. Denis Kurle
Copyright-Jahr
2018
Electronic ISBN
978-3-319-70440-1
Print ISBN
978-3-319-70439-5
DOI
https://doi.org/10.1007/978-3-319-70440-1

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