78,866 research outputs found
Modeling Fixed Bed Membrane Reactors for Hydrogen Production through Steam Reforming Reactions: A Critical Analysis
Membrane reactors for hydrogen production have been extensively studied in the past years due to the interest in developing systems that are adequate for the decentralized production of high-purity hydrogen. Research in this field has been both experimental and theoretical. The aim of this work is two-fold. On the one hand, modeling work on membrane reactors that has been carried out in the past is presented and discussed, along with the constitutive equations used to describe the different phenomena characterizing the behavior of the system. On the other hand, an attempt is made to shed some light on the meaning and usefulness of models developed with different degrees of complexity. The motivation has been that, given the different ways and degrees in which transport models can be simplified, the process is not always straightforward and, in some cases, leads to conceptual inconsistencies that are not easily identifiable or identified
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Approaches to conceptual clustering
Methods for Conceptual Clustering may be explicated in two lights. Conceptual Clustering methods may be viewed as extensions to techniques of numerical taxonomy, a collection of methods developed by social and natural scientists for creating classification schemes over object sets. Alternatively, conceptual clustering may be viewed as a form of learning by observation or concept formation, as opposed to methods of learning from examples or concept identification. In this paper we survey and compare a number of conceptual clustering methods along dimensions suggested by each of these views. The point we most wish to clarify is that conceptual clustering processes can be explicated as being composed of three distinct but inter-dependent subprocesses: the process of deriving a hierarchical classification scheme; the process of aggregating objects into individual classes; and the process of assigning conceptual descriptions to object classes. Each subprocess may be characterized along a number of dimensions related to search, thus facilitating a better understanding of the conceptual clustering process as a whole
How physics instruction impacts students' beliefs about learning physics: A meta-analysis of 24 studies
In this meta-analysis, we synthesize the results of 24 studies using the
Colorado Learning Attitudes about Science Survey (CLASS) and the Maryland
Physics Expectations Survey (MPEX) to answer several questions: (1) How does
physics instruction impact students' beliefs? (2) When do physics majors
develop expert-like beliefs? and (3) How do students' beliefs impact their
learning of physics? We report that in typical physics classes, students'
beliefs deteriorate or at best stay the same. There are a few types of
interventions, including an explicit focus on model-building and/or developing
expert- like beliefs that lead to significant improvements in beliefs. Further,
small courses and those for elementary education and non-science majors also
result in improved beliefs. However, because the available data oversamples
certain types of classes, it is unclear whether these improvements are actually
due to the interventions, or due to the small class size, or student population
typical of the kinds of classes in which these interventions are most often
used. Physics majors tend to enter their undergraduate education with more
expert-like beliefs than non-majors and these beliefs remain relatively stable
throughout their undergraduate careers. Thus, typical physics courses appear to
be selecting students who already have strong beliefs, rather than supporting
students in developing strong beliefs. There is a small correlation between
students' incoming beliefs about physics and their gains on conceptual
mechanics surveys. This suggests that students with more expert-like incoming
beliefs may learn more in their physics courses, but this finding should be
further explored and replicated. Some unanswered questions remain. To answer
these questions, we advocate several specific types of future studies.Comment: 30 pages. Accepted to Phys Rev ST-PE
A formal verification framework and associated tools for enterprise modeling : application to UEML
The aim of this paper is to propose and apply a verification and validation approach to Enterprise Modeling that enables the user to improve the relevance and correctness, the suitability and coherence of a model by using properties specification and formal proof of properties
Product Sound Design: An Inter-Disciplinary Approach?
The practice of product sound design is relatively new within the field of product development. Consequently, the responsibilities and the role of a (sound) designer are not very clear. However, practice shows that various disciplines such as design engineering, acoustics, psychoacoustics, psychology, and musicology contribute to the improvement of product sounds. We propose that sound design should be conducted by experts who have knowledge in the afore-mentioned fields. In other words, we suggest that product sound design should be an independent field that encompasses an inter-disciplinary approach.
Keywords:
sound design; sound designer; product sounds; design processes; multi-disciplinary, inter-disciplinary</p
Development of the Integrated Model of the Automotive Product Quality Assessment
Issues on building an integrated model of the automotive product quality assessment are studied herein basing on widely applicable methods and models of the quality assessment. A conceptual model of the automotive product quality system meeting customer requirements has been developed. Typical characteristics of modern industrial production are an increase in the production dynamism that determines the product properties; a continuous increase in the volume of information required for decision-making, an increased role of knowledge and high technologies implementing absolutely new scientific and technical ideas. To solve the problem of increasing the automotive product quality, a conceptual structural and hierarchical model is offered to ensure its quality as a closed system with feedback between the regulatory, manufacturing, and information modules, responsible for formation of the product quality at all stages of its life cycle. The three module model of the system of the industrial product quality assurance is considered to be universal and to give the opportunity to explore processes of any complexity while solving theoretical and practical problems of the quality assessment and prediction for products for various purposes, including automotive
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