170 research outputs found
Selection, Sizing, and Testing of Stream Traps in Commercial Buildings
For maximum effectiveness in steam systems, steam traps should have operating characteristics which
closely match the requirements of the applications for which they are used. A trap which holds back condensate
until it is subcooled and some of the sensible heat has been utilized is unsuitable where the need is to get
maximum output from an exchanger by discharging condensate as soon as it forms. Equally, a trap discharging
condensate at steam temperature can exacerbate flash steam problems in cases where surplus heat exchange area
exists and a subcooling trap might be more suitable.
In all cases, undersized traps simply cannot drain condensate from the steam equipment at the required
rate, while oversized traps which cost more will usually wear faster and begin leaking expensive steam.
This emphasizes the need for carefully selecting trap sizes that are properly engineered for maximum
system efficiency. And, of course, the ability of a trap to cope with varying loads and to discharge noncondensible
gases is often important. The recommended procedure is to first select the trap type which has performance
capabilities that satisfy specific application needs, and then to choose a size which handles the condensate
load without any unnecessary excess capacity. The Selection Guide, Table 1, is not comprehensive but
helps in many applications where no unusual operating conditions or severe corrosion problems exist. Choosing
the correct trap size then implies estimating the steam consumption rate, which of course equals the condensate
load. Sometimes the load has already been measured, or the rated output of the steam equipment is known or can
be obtained from the original manufacturer. In other cases, an estimate must be made and a Table o f Load Formulas
will help although it, too, cannot be comprehensive. After making the best possible estimate of the
load, a safety factor is applied. This allows for any inaccuracies in the estimating, for increased condensation rates at start-up, and for lower than anticipated pressure differentials across the trap
Intelligent problem-solvers externalize cognitive operations
The use of forward models (mechanisms that predict the future state of a system) is well established in cognitive and computational neuroscience. We compare and contrast two recent, but interestingly divergent, accounts of the place of forward models in the human cognitive architecture. On the Auxiliary Forward Model (AFM) account, forward models are special-purpose prediction mechanisms implemented by additional circuitry distinct from core mechanisms of perception and action. On the Integral Forward Model (IFM) account, forward models lie at the heart of all forms of perception and action. We compare these neighbouring but importantly different visions and consider their implications for the cognitive sciences. We end by asking what kinds of empirical research might offer evidence favouring one or the other of these approaches
\u3ci\u3en\u3c/i\u3e-Type Charge Transport in Heavily \u3ci\u3ep\u3c/i\u3e-Doped Polymers
It is commonly assumed that charge-carrier transport in doped Ï-conjugated polymers is dominated by one type of charge carrier, either holes or electrons, as determined by the chemistry of the dopant. Here, through Seebeck coefficient and Hall effect measurements, we show that mobile electrons contribute substantially to charge-carrier transport in Ï-conjugated polymers that are heavily p-doped with strong electron acceptors. Specifically, the Seebeck coefficient of several p-doped polymers changes sign from positive to negative as the concentration of the oxidizing agents FeCl3 or NOBF4 increase, and Hall effect measurements for the same p-doped polymers reveal that electrons become the dominant delocalized charge carriers. Ultraviolet and inverse photoelectron spectroscopy measurements show that doping with oxidizing agents results in elimination of the transport gap at high doping concentrations. This approach of heavy p-type doping is demonstrated to provide a promising route to high-performance n-type organic thermoelectric materials
Computationally Aided Design of a High-Performance Organic Semiconductor: The Development of a Universal Crystal Engineering Core
Herein, we describe the design and synthesis of a suite of molecules based on a benzodithiophene âuniversal crystal engineering coreâ. After computationally screening derivatives, a trialkylsilylethyne-based crystal engineering strategy was employed to tailor the crystal packing for use as the active material in an organic field-effect transistor. Electronic structure calculations were undertaken to reveal derivatives that exhibit exceptional potential for high-efficiency hole transport. The promising theoretical properties are reflected in the preliminary device results, with the computationally optimized material showing simple solution processing, enhanced stability, and a maximum hole mobility of 1.6 cm2 Vâ1 sâ1
Observing response processes with eye tracking in international large-scale assessments: evidence from the OECD PIAAC assessment
This paper reports on a pilot study that used eye tracking techniques to make detailed observations of item response processes in the OECD Programme for the International Assessment of Adult Competencies (PIAAC). The lab-based study also recorded physiological responses using measures of pupil diameter and electrodermal activity. The study tested 14 adult respondents as they individually completed the PIAAC computer-based assessment. The eye tracking observations help to fill an âexplanatory gapâ by providing data on variation in item response processes that are not captured by other sources of process data such as think aloud protocols or computer-generated log files. The data on fixations and saccades provided detailed information on test item response strategies, enabling profiling of respondent engagement and response processes associated with successful performance. Much of that activity does not include the use of the keyboard and mouse, and involves âoff-screenâ use of pen and paper (and calculator) that are not captured by assessment log-files. In conclusion, this paper points toward an important application of eye tracking in large-scale assessments. This includes insights into response processes in new domains such as adaptive problem-solving that aim to identify individualsâ ability to select and combine resources from the digital and physical environment
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Spatial constancy of attention across eye movements is mediated by the presence of visual objects
Recent studies have shown that attentional facilitation lingers at the retinotopic coordinates of a previously attended position after an eye movement. These results are intriguing, because the retinotopic location becomes behaviorally irrelevant once the eyes have moved. Critically, in these studies participants were asked to maintain attention on a blank location of the screen. In the present study, we examined whether the continuing presence of a visual object at the cued location could affect the allocation of attention across eye movements. We used a trans-saccadic cueing paradigm in which the relevant positions could be defined or not by visual objects (simple square outlines). We find an attentional benefit at the spatiotopic location of the cue only when the object (the placeholder) has been continuously present at that location. We conclude that the presence of an object at the attended location is a critical factor for the maintenance of spatial constancy of attention across eye movements, a finding that helps to reconcile previous conflicting results
Examining ecological validity in social interaction: problems of visual fidelity, gaze, and social potential
Social interaction is an essential part of the human experience, and much work has been done to study it. However, several common approaches to examining social interactions in psychological research may inadvertently either unnaturally constrain the observed behaviour by causing it to deviate from naturalistic performance, or introduce unwanted sources of variance. In particular, these sources are the differences between naturalistic and experimental behaviour that occur from changes in visual fidelity (quality of the observed stimuli), gaze (whether it is controlled for in the stimuli), and social potential (potential for the stimuli to provide actual interaction). We expand on these possible sources of extraneous variance and why they may be important. We review the ways in which experimenters have developed novel designs to remove these sources of extraneous variance. New experimental designs using a âtwo-personâ approach are argued to be one of the most effective ways to develop more ecologically valid measures of social interaction, and we suggest that future work on social interaction should use these designs wherever possible
Social navigation
In this chapter we present one of the pioneer approaches in supporting users in navigating the complex information spaces, social navigation support. Social navigation support is inspired by natural tendencies of individuals to follow traces of each other in exploring the world, especially when dealing with uncertainties. In this chapter, we cover details on various approaches in implementing social navigation support in the information space as we also connect the concept to supporting theories. The first part of this chapter reviews related theories and introduces the design space of social navigation support through a series of example applications. The second part of the chapter discusses the common challenges in design and implementation of social navigation support, demonstrates how these challenges have been addressed, and reviews more recent direction of social navigation support. Furthermore, as social navigation support has been an inspirational approach to various other social information access approaches we discuss how social navigation support can be integrated with those approaches. We conclude with a review of evaluation methods for social navigation support and remarks about its current state
Filling a gap in the semantic gradient: Color associates and response set effects in the Stroop task
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