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Full Scale (full + scale)
Terms modified by Full Scale Selected AbstractsParticles from fires,a screening of common materials found in buildingsFIRE AND MATERIALS, Issue 6 2003Tommy Hertzberg Abstract Small combustion generated particles are known to have a negative impact on human health and on the environment. In spite of the huge amount of particles generated locally in a fire accident, few investigations have been made on the particles from such fires. In this article, 24 different materials or products, typically found in buildings have been exposed to burning conditions in order to examine their particle generating capacity. In addition, a carbon fibre based composite material was tested in order to investigate if asbestos-resembling particles could be generated in a fire situation. The majority of the experiments were performed in the small-scale cone calorimeter, and some further data were collected in intermediate scale (SBI) and full scale (room-corner) tests. Additional testing of the composite material was made in a small-scale tubular reactor. The amount of particles and particle size distributions were measured by the use of a low-pressure impactor and particle aerodynamic diameter sizes from 30 nm to 10 ,m were measured. The results from the project show that the yield of particles generated varied significantly between materials but that the shape of mass and number size distributions were very similar for all the materials tested. The maximum amount of particles was obtained from materials that did not burn well (e.g. flame retarded materials). Well-burning materials, e.g. wood materials, tend to oxidize all available substances and thereby minimize the amount of particles in the smoke gas. It was found that asbestos-resembling particles could be produced from under-ventilated combustion of the composite material tested. Copyright © 2003 John Wiley & Sons, Ltd. [source] Which are the polyphosphate accumulating organisms in full-scale activated sludge enhanced biological phosphate removal systems in Australia?JOURNAL OF APPLIED MICROBIOLOGY, Issue 2 2006M. Beer Abstract Aims:, To see if the compositions of the microbial communities in full scale enhanced biological phosphorus removal activated sludge systems were the same as those from laboratory scale sequencing batch reactors fed a synthetic sewage. Methods:, Biomass samples taken from nine full scale enhanced biological phosphate removal (EBPR) activated sludge plants in the eastern states of Australia were analysed for their populations of polyphosphate (polyP)-accumulating organisms (PAO) using semi-quantitative fluorescence in situ hybridization (FISH) in combination with DAPI (4,-6-diamidino-2-phenylindole) staining for polyP. Results:, Very few betaproteobacterial Rhodocyclus related organisms could be detected by FISH in most of the plants examined, and even where present, not all these cells even within a single cluster, stained positively for polyP with DAPI. In some plants in samples from aerobic reactors the Actinobacteria dominated populations containing polyP. Conclusions:, The PAO populations in full-scale EBPR systems often differ to those seen in laboratory scale reactors fed artificial sewage, and Rhodocyclus related organisms, dominating these latter communities may not be as important in full-scale systems. Instead Actinobacteria may be the major PAO. Significance and Impact of the Study:, These findings illustrate how little is still known about the microbial ecology of EBPR processes and that more emphasis should now be placed on analysis of full-scale plants if microbiological methods are to be applied to monitoring their performances. [source] Accuracy of brief and full forms of the child mania rating scaleJOURNAL OF CLINICAL PSYCHOLOGY, Issue 4 2008David B. Henry Abstract This study assesses the sensitivity of full and brief forms of a parent-rated mania scale to variations in diagnoses. Parents of a sample of 150 subjects either diagnosed with bipolar disorder (BD) or attention deficit hyperactivity disorder (ADHD), or healthy controls (HC), completed the full Child Mania Rating Scale and other measures. We used single-parameter item-response theory models to produce a brief parent mania rating scale from the full version. The 10-item, brief Child Mania Rating Scale,Parent (CMRS-P) version correlated .93 with 11 items from the full CMRS-P that were not used in constructing the brief version, and showed accuracy comparable to the full scale in differentiating BD from ADHD, and in discriminating among bipolar subtypes. © 2008 Wiley Periodicals, Inc. J Clin Psychol 64:1,14, 2008. [source] The Alcohol Use Disorders Identification Test (AUDIT): A Review of Recent ResearchALCOHOLISM, Issue 2 2002Duane F. Reinert Background: Efficient, inexpensive screening for early stage alcohol problems is important in health care settings. The Alcohol Use Disorders Identification Test (AUDIT) has been studied extensively to establish its value in this regard. Methods: A literature search that used EtOH as a database was conducted to identify studies published on the AUDIT through September 2001. Keywords used for the search were "Alcohol Use Disorders Identification Test" and "AUDIT." All studies reporting psychometric properties of the measure were reviewed with particular attention being given to the period 1996 and later. A small number of additional references were located by noting their citation in other studies reviewed. Results: Although more research is needed on non-English versions to establish their psychometric properties, at least in its English edition, the AUDIT demonstrates sensitivities and specificities comparable, and typically superior, to those of other self-report screening measures. Test-retest reliability and internal consistency are also quite favorable. For males, the AUDIT-C, a shortened version of the AUDIT, appears approximately equal in validity to the full scale. Conclusions: Recent research continues to support use of the AUDIT as a means of screening for alcohol use disorders in health care settings in the United States. [source] Bifurcations on a spring-pendulum oscillatorPROCEEDINGS IN APPLIED MATHEMATICS & MECHANICS, Issue 1 2007A. Gonzalez-Buelga In this paper we study experimentally the dynamics of a non linear system: a spring pendulum coupled to an oscillator. The system was tested using a hybrid technique called Real Time Dynamic Substructuring (RTDS)[1, 2]. RTDS is a testing technique that involves splitting the system under study into two subsystems: one will be physically tested (physical substructure) and the other will be simulated in the computer (numerical model). These substructures interact in real time through a set of transfer systems. RTDS is a very powerful experimental methodology that not only allows full scale and real time testing but also real-time bifurcation tracking in complex engineering systems [3, 4]. In our hybrid experiment the spring pendulum is taken to be the physical substructure while oscillator is the simulated numerical model. (© 2008 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source] An example of a test method for vent sizing,OPPSD/SPI methodologyPROCESS SAFETY PROGRESS, Issue 2 2002Charles S. Poteet III An alternative methodology to that of United Nations, Appendix 5, Sample Method, has been developed by the Organic Peroxides Producers Safety Division of the Society of the Plastics Industry (OPPSD/SPI) to assure the safe emergency venting of organic peroxides in an approved container. The methodology is applicable for designing a new container for an existing or new organic peroxide. Bench-scale testing with a 10 liter vessel determined the maximum pressure pulse (spike) generated during a thermal decomposition/overpressurization vs. the ultimate, structural strength of the container measured and/or calculated. The methodology has been tested full scale with a United Nations 6(c) fuel fire. Container deformation, so long as there is no fragmentation, is permitted with the proviso that the container be retired from service following an incident. The methodology, as developed, reflects advances in technology while "harmonizing" to a maximum extent with the United Nations, Appendix 5, Sample Method. [source] An evaluation of permeable reactive barrier projects in CaliforniaREMEDIATION, Issue 1 2009John P. Muegge Permeable reactive barriers made of zero-valent iron (ZVI PRBs) have become a prominent remediation technology in addressing groundwater contamination by chlorinated solvents. Many ZVI PRBs have been installed across the United States, some as research projects, some at the pilot scale, and many at full scale. As a passive and in situ remediation technology, ZVI PRBs have many attractive features and advantages over other approaches to groundwater remediation. Ten ZVI PRBs installed in California were evaluated for their performance. Of those ten, three are discussed in greater detail to illustrate the complexities that arise when quantifying the performance of ZVI PRBs, and to provide comment on the national debate concerning the downgradient effects of source-zone removal or treatment on plumes of contaminated groundwater. © 2009 Wiley Periodicals, Inc. [source] Ultra scale-down prediction using microwell technology of the industrial scale clarification characteristics by centrifugation of mammalian cell brothsBIOTECHNOLOGY & BIOENGINEERING, Issue 2 2009A.S. Tait Abstract This article describes how a combination of an ultra scale-down (USD) shear device feeding a microwell centrifugation plate may be used to provide a prediction of how mammalian cell broth will clarify at scale. In particular a method is described that is inherently adaptable to a robotic platform and may be used to predict how the flow rate and capacity (equivalent settling area) of a centrifuge and the choice of feed zone configuration may affect the solids carry over in the supernatant. This is an important consideration as the extent of solids carry over will determine the required size and lifetime of a subsequent filtration stage or the passage of fine particulates and colloidal material affecting the performance and lifetime of chromatography stages. The extent of solids removal observed in individual wells of a microwell plate during centrifugation is shown to correlate with the vertical and horizontal location of the well on the plate. Geometric adjustments to the evaluation of the equivalent settling area of individual wells (,M) results in an improved prediction of solids removal as a function of centrifuge capacity. The USD centrifuge settling characteristics need to be as for a range of equivalent flow rates as may be experienced at an industrial scale for a machine of different shear characteristics in the entry feed zone. This was shown to be achievable with two microwell-plate based measurements and the use of varying fill volumes in the microwells to allow the rapid study of a fivefold range of equivalent flow rates (i.e., at full scale for a particular industrial centrifuge) and the effect of a range of feed configurations. The microwell based USD method was used to examine the recovery of CHO-S cells, prepared in a 5,L reactor, at different points of growth and for different levels of exposure to shear post reactor. The combination of particle size distribution measurements of the cells before and after shear and the effect of shear on the solids remaining after centrifugation rate provide insight into the state of the cells throughout the fermentation and the ease with which they and accumulated debris may be removed by continuous centrifugation. Hence bioprocess data are more readily available to help better integrate cell culture and cell removal stages and resolve key bioprocess design issues such as choice of time of harvesting and the impact on product yield and contaminant carry over. Operation at microwell scale allows data acquisition and bioprocess understanding over a wide range of operating conditions that might not normally be achieved during bioprocess development. Biotechnol. Bioeng. 2009; 104: 321,331 © 2009 Wiley Periodicals, Inc. [source] Ultra scale-down of protein refold screening in microwells: Challenges, solutions and applicationBIOTECHNOLOGY & BIOENGINEERING, Issue 2 2009Gareth J. Mannall Abstract Steps for the refolding of proteins from solubilized inclusion bodies or misfolded product often represent bottlenecks in process development, where optimal conditions are typically derived empirically. To expedite refolding optimization, microwell screening may be used to test multiple conditions in parallel. Fast, accurate, and reproducible assays are required for such screening processes, and the results derived must be representative of the process at full scale. This article demonstrates the use of these microscale techniques to evaluate the effects of a number of additives on the refolding of IGF-1 from denatured inclusion bodies, using an established HPLC assay for this protein. Prior to this, microwell refolding was calibrated for scale-up using hen egg-white lysozyme (HEWL) as an initial model protein, allowing us to implement and compare several assays for protein refolding, including turbidity, enzyme activity, and chromatographic methods, and assess their use for microwell-based experimentation. The impact of various microplate types upon protein binding and loss is also assessed. Solution mixing is a key factor in protein refolding, therefore we have characterized the effects of different methods of mixing in microwells in terms of their impact on protein refolding. Our results confirm the applicability and scalability of microwell screening for the development of protein refolding processes, and its potential for application to new inclusion body-derived protein products. Biotechnol. Bioeng. 2009;103: 329,340. © 2008 Wiley Periodicals, Inc. [source] Development of the Video Assessment of Propensity to Use Emergency Restraints Scale (VAPERS): Results of the VAPERS Study GroupACADEMIC EMERGENCY MEDICINE, Issue 6 2007Darryl Macias MD Background:Emergency physicians (EPs) may disagree on when or whether patients need restraints. There is no good objective measure of the likelihood of EPs to restrain patients. Objectives:To 1) develop a scale to determine the likelihood that an EP would restrain a patient, 2) develop subscale scoring, and 3) determine a shortened version that correlates highly with the full scale. Methods:This was a prospective cross sectional study. The Video Assessment of Propensity to use Emergency Restraints Scale (VAPERS), consisting of 17 scenarios utilizing actors, was videotaped to produce a research video assessment tool. The VAPERS was designed by development experts to reflect the spectrum of patients who are considered for restraint in an emergency department. The VAPERS was piloted among a 22-member pilot panel of EPs (faculty and residents). The pilot panel was asked to determine the degree to which each video patient possessed the following patient characteristics: medical instability, trauma, belligerence, agitation, and altered mental status. Each "degree of characteristic" was measured on a separate 100-mm visual analog scale. Participants were then asked whether or not they would restrain each patient and whether the patient exhibited the potential to harm him- or herself or others. VAPERS subscales were developed for the likelihood to restrain patients with each of the patient characteristics. Spearman correlations were used for all comparisons. Linear regression was used to determine which patient characteristics were most related to likelihood to restrain and to develop a reduced scale to predict the overall likelihood to restrain. Results:The overall VAPERS score ranged from 0 to 100, with a median of 50 (interquartile range [IQR], 24,88). The visual analog scale results of how likely each video patient possessed specific characteristics were as follows: medical instability ranged from 0 to 100 (median, 32; IQR, 12,64), trauma ranged from 0 to 69 (median, 0; IQR, 0,31), belligerence ranged from 20 to 93 (median, 28; IQR, 14,63), agitation ranged from 3 to 84 (median, 52; IQR, 23,72), and altered mental status ranged from 1 to 93 (median, 29; IQR, 16,69). Linear regression indicated that two characteristic variables (danger to self and degree of agitation) in the video scenarios were highly correlated (0.87) with overall likelihood to restrain. Based on the results, the authors developed a shortened video assessment tool consisting of five of the original videos that were highly correlated (R= 0.94) with the full VAPERS scale on overall likelihood to restrain. Conclusions:The VAPERS scale covers a wide range of important variables in emergency situations. It successfully measured likelihood to restrain in this pilot study for overall situations, and for subgroups, based on patient characteristics. A shortened five-video VAPERS also successfully measured the overall likelihood to restrain. [source] | ||||||||||||||||