Lactobacilli spp. and Zataria multiflora essence as antibiotic substituent on broiler health and performance parameters

A novel heat exchanger for automotive applications developed by the Heat Transfer and Fluid Flow Laboratory at the Brno University of Technology, Czech Republic, is compared with a conventional commercially available metal radiator. The heat transfer surface of this heat exchanger is composed of polymeric hollow fibers made from polyamide 612 by DuPont (Zytel LC6159). The cross-section of the polymeric radiator is identical to the aluminum radiator (louvered fins on flat tubes) in a Skoda Octavia and measures 720 × 480 mm. The goal of the study is to compare the functionality and performance parameters of both radiators based on the results of tests in a calibrated air wind tunnel. During testing, both heat exchangers were tested in conventional conditions used for car radiators with different air flow and coolant (50% ethylene glycol) rates. The polymeric hollow fiber heat exchanger demonstrated about 20% higher thermal performance for the same air flow. The efficiency of the polymeric radiator was in the range 80–93% and the efficiency of the aluminum radiator was in the range 64–84%. The polymeric radiator is 30% lighter than its conventional metal competitor. Both tested radiators had very similar pressure loss on the liquid side, but the polymeric radiator featured higher air pressure loss.

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Effect of Dam Depth and Relief Track Depth on Steady-State and Dynamic Performance Parameters of 3-Lobe Pressure Dam Bearing

Advances in Tribology ◽

10.1155/2017/1380367 ◽

2017 ◽

Vol 2017 ◽

pp. 1-11 ◽

Cited By ~ 2

Author(s):

Ashutosh Kumar ◽

S. K. Kakoty

Keyword(s):

Steady State ◽

Dynamic Performance ◽

Performance Characteristics ◽

Performance Parameters ◽

Effect Of Pressure ◽

And Performance

The present study analyzes the effect of pressure dam depth and relief track depth on the performance of three-lobe pressure dam bearing. Different values of dam depth and relief track depth are taken in nondimensional form in order to analyze their effect. Results are plotted for different parameters against eccentricity ratios and it is shown that the effect of pressure dam depth and relief track depth has great significance on stability and other performance parameters. Study of stability and performance characteristics is undertaken simultaneously.

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Doses of caffeine on the development and performance of pepper crops under greenhouse

Horticultura Brasileira ◽

10.1590/s0102-053620140000400005 ◽

2014 ◽

Vol 32 (4) ◽

pp. 398-403 ◽

Cited By ~ 2

Author(s):

Óscar Montes ◽

Fernando Diánez ◽

Francisco Camacho

Keyword(s):

Fruit Quality ◽

Cycle Performance ◽

Morphological Development ◽

Performance Parameters ◽

Stimulant Effect ◽

Plant Organs ◽

Vegetative Plant ◽

Production Parameters ◽

Growth Stimulator ◽

And Performance

A number of experiments on plant organs demonstrated that caffeine acts as a growth stimulator. In this study we aimed to determine the influence of caffeine on development of pepper crops under stress in the autumn-winter cycle, as peppers stop growing and developing in November and January. The experiments were conducted to determine how caffeine applied to the soil by fertigation, with doses of 2.25 µM and 9.00 µM for T1 and T2, respectively, compared to the control crop, affect the morphological development and performance of the pepper crops during two crop cycles (2008-2009 and 2009-2010 in autumn-winter). Throughout the whole vegetative plant cycle, performance parameters of fruit quality and the influence on the morphological development were obtained on different dates. With respect to the remainder of the morphological and production parameters, no significant differences were discovered in either of the evaluated cycles, thus leading to the conclusion that the two doses of caffeine, 2.25 µM and 9.00 µM, did not have any stimulant effect on the development and performance of the pepper crop during both cycles. Total yields were unaffected by either treatment, 4.89, 4.90 and 4.88 kg/m2 for the first assay and 5.28, 5.23 and 5.28 for the second, for treatments control and caffeine dosses 2.25 µM y 9.00 µM respectively.

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A Method for Determining the Noise Levels and Performance Parameters for Truck Cooling Fans

10.4271/730680 ◽

1973 ◽

Author(s):

S. O. Fleischer

Keyword(s):

Performance Parameters ◽

Noise Levels ◽

Cooling Fans ◽

And Performance

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Exclusive Characteristics and Management, Status and Performance Parameters of Balochi Sheep

Advances in Animal and Veterinary Sciences ◽

10.17582/journal.aavs/2021/9.5.669.673 ◽

2020 ◽

Vol 9 (5) ◽

Author(s):

Mudassar Jehan ◽

Masroor Ahmed Bajwa ◽

Mohammad Masood Tariq ◽

Asim Faraz ◽

Ecevit Eyduran ◽

...

Keyword(s):

Performance Parameters ◽

And Performance

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BIM Enabled Approach for Performance-Based Design

International Journal of 3-D Information Modeling ◽

10.4018/ij3dim.2018100101 ◽

2018 ◽

Vol 7 (4) ◽

pp. 1-27

Author(s):

Renas K.M. Sherko ◽

Yusuf Arayici ◽

Mike Kagioglou

Keyword(s):

Technology Use ◽

Building Design ◽

Energy Performance ◽

Performance Based Design ◽

Design Parameters ◽

Performance Parameters ◽

Efficient Design ◽

Architectural Practice ◽

Study Approach ◽

And Performance

A significant amount of energy is consumed by buildings due to ineffective design decisions with little consideration for energy efficiency. Yet, performance parameters should be considered during the early design phase, which is vital for improved energy performance and lower CO2 emissions. BIM, as a new way of working methodology, can help for performance-based design. However, it is still infancy in architectural practice about how BIM can be used to develop energy efficient design. Thus, the aim is to propose a strategic framework to guide architects about how to do performance-based design considering the local values and energy performance parameters. The research adopts a multi case study approach to gain qualitative and quantitative insights into the building energy performance considering the building design parameters. The outcome is a new design approach and protocol to assist designers to successfully use BIM for design optimization, PV technology use in design, rules-based design and performance assessment scheme reflecting local values.

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Physiological Responses and Predictors of Performance in a Simulated Competitive Ski Mountaineering Race

Journal of Sports Science and Medicine ◽

10.52082/jssm.2021.250 ◽

2021 ◽

pp. 250-257

Author(s):

Michael Lasshofer ◽

John Seifert ◽

Anna-Maria Wörndle ◽

Thomas Stöggl

Keyword(s):

Laboratory Test ◽

Power Output ◽

Ventilatory Threshold ◽

Elite Athletes ◽

Physiological Responses ◽

Performance Parameters ◽

Ramp Test ◽

The Past ◽

Treadmill Speed ◽

And Performance

Competitive ski mountaineering (SKIMO) has achieved great popularity within the past years. However, knowledge about the predictors of performance and physiological response to SKIMO racing is limited. Therefore, 21 male SKIMO athletes split into two performance groups (elite: VO2max 71.2 ± 6.8 ml· min-1· kg-1 vs. sub-elite: 62.5 ± 4.7 ml· min-1· kg-1) were tested and analysed during a vertical SKIMO race simulation (523 m elevation gain) and in a laboratory SKIMO specific ramp test. In both cases, oxygen consumption (VO2), heart rate (HR), blood lactate and cycle characteristics were measured. During the race simulation, the elite athletes were approximately 5 min faster compared with the sub-elite (27:15 ± 1:16 min; 32:31 ± 2:13 min; p < 0.001). VO2 was higher for elite athletes during the race simulation (p = 0.046) and in the laboratory test at ventilatory threshold 2 (p = 0.005) and at maximum VO2 (p = 0.003). Laboratory maximum power output is displayed as treadmill speed and was higher for elite than sub-elite athletes (7.4 ± 0.3 km h-1; 6.6 ± 0.3 km h-1; p < 0.001). Lactate values were higher in the laboratory maximum ramp test than in the race simulation (p < 0.001). Pearson’s correlation coefficient between race time and performance parameters was highest for velocity and VO2 related parameters during the laboratory test (r > 0.6). Elite athletes showed their superiority in the race simulation as well as during the maximum ramp test. While HR analysis revealed a similar strain to both cohorts in both tests, the superiority can be explainable by higher VO2 and power output. To further push the performance of SKIMO athletes, the development of named factors like power output at maximum and ventilatory threshold 2 seems crucial.

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Regenerated Marine Gas Turbines: Part II — Regenerator Technology and Heat Exchanger Sizing

Volume 2: Aircraft Engine; Marine; Microturbines and Small Turbomachinery ◽

10.1115/82-gt-314 ◽

1982 ◽

Cited By ~ 1

Author(s):

J. W. Watts ◽

T. L. Bowen

Keyword(s):

Heat Exchanger ◽

Pressure Drop ◽

Performance Improvement ◽

Gas Turbines ◽

Performance Parameters ◽

Next Generation ◽

Plate Spacing ◽

Naval Ship ◽

And Performance ◽

Regenerative Cycle

Analytical studies are currently being conducted by the David Taylor Naval Ship R&D Center to assess the suitability of regenerative-cycle and intercooled, regenerative-cycle gas turbines for naval applications. This paper is the second part of a two-part paper which discusses results of initial investigations to identify attractive engine concepts based on existing turbomachinery and to consider the regenerator technology required to develop these engine concepts. Part I of the paper analyzed existing and next generation engines for performance improvement. Part II includes: definitions of performance parameters such as effectiveness and pressure drop, a discussion of regenerator types, and comments on regenerator materials, life, maintenance, and fouling. Tradeoffs between size, weight, and performance of plate-fin recuperators are examined using two of the hypothetical engines from Part I as examples. Results are compared for several different recuperator matrices to illustrate the effects of air-side and gas-side fin density and plate spacing on size, weight, and performance.

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Centrifugal and Membrane Therapeutic Plasma Exchange – A Mini-review

European Oncology & Haematology ◽

10.17925/eoh.2018.14.2.105 ◽

2018 ◽

Vol 14 (2) ◽

pp. 105 ◽

Cited By ~ 1

Author(s):

Michiel Etienne Janssens ◽

Stuart Wakelin ◽

◽

Keyword(s):

Plasma Exchange ◽

Membrane Filtration ◽

Venous Access ◽

Therapeutic Plasma Exchange ◽

Performance Parameters ◽

Procedure Time ◽

Peripheral Venous Access ◽

And Performance ◽

Cellular Components ◽

Comparative Information

During therapeutic plasma exchange (TPE), a large volume of a patient’s plasma is separated from the cellular components of the blood and replaced with appropriate fluids to remove circulating plasma components and disease mediators such as antibodies, cholesterol, toxins and drugs. Automated TPE systems can be categorised into two distinct groups based on the method of plasma separation: centrifugal TPE (cTPE) and membrane filtration TPE (mTPE). While technical and performance parameters for various TPE systems have been reported previously, the recent publication of several head-to-head studies directly comparing the Spectra Optia® cTPE system (Terumo BCT, Lakewood, CO, US) with mTPE systems has increased the understanding of their performance. This review summarises the comparative information between the systems. Although both device types are well tolerated, the majority of technical variables favour the cTPE system over mTPE systems, with a low risk of clotting events and benefits in plasma removal efficiency and hence procedure time. Platelet loss with the cTPE system was also shown to be similar or reduced compared with mTPE systems. Finally, flow rate requirements limit the use of peripheral venous access with mTPE devices, but not cTPE devices. Conclusively, several important differences exist between cTPE and mTPE systems that may influence treatment decisions.

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