Methodological aspects of crossover and maximum fat-oxidation rate point determination
A-S MichalletJulia ToniniJean-Claude RégnierMichel GuinotA. Favre‐JuvinVéronique‐Aurélie BricoutS. HalimiBernard WuyamPatrice Flore
33
Citation
19
Reference
10
Related Paper
Citation Trend
Rank (graph theory)
Limiting
Summary statistics
Sample (material)
Cite
Citations (2)
Based on investigation,measuring and analyses on the renovation and expansion for the domestic mine ventilation system and by applying the basic indicators,integrated indicators and supplementary indicators identified by the mine ventilation system,it is found out the common ventilation problems existed in the renovation and expansion of the mine ventilation system and the main reasons affecting the renovation and expansion of the mine ventilation are summarized and analyzed.For the main ventilation problems,the paper puts forward some optimization methods of ventilation equipment,ventilation network and airflow regulation facility and the management measures of mine ventilation on the renovation and expansion of the mine ventilation system.It has achieved good results and proved worthwhile to be popularized.
Cite
Citations (0)
Two-parameter models of fractional statistics aimed at finding an expression for the occupation numbers of free anyons have been considered. Virial coefficients are found for statistics of several types: к-deformed Polychronakos and Haldane–Wu statistics, Polychronakos and Haldane–Wu statistics modified with the q-exponential in the bosonic limit, and incomplete and nonadditive Gentile statistics for various level-filling maxima. A relation between the anyonic statistics and various statistics of fractional types is found and analyzed.
Maxima
Summary statistics
Cite
Citations (2)
Air change
Cite
Citations (0)
Cite
Citations (0)
The term ventilation effectiveness has been widely used to evaluate ventilation systems for air quality control.The application of the term is often either qualitative, rather than quantitative, or difficult for field application. This paperpresents the results of quantification of ventilation effectiveness for specific ventilation systems by using a ventilationeffectiveness factor (VEF) and a ventilation effectiveness map (VEM). The VEF and VEM are defined mathematically so theycan be used to quantify the ventilation effectiveness of a ventilation system. The application of the VEF and VEM wasillustrated using a fullscale room case study, which involves comparison of two different ventilation systems: one had a slotair outlet at the opposite wall to the air inlet (Case A), and the other had a air outlet at the same wall as the air inlet (Case B).It is commonly assumed that the locations of air outlets or exhaust fans have little effect on the ventilation effectiveness forlivestock buildings. The case studies show that the outlet location had a substantial effect on the ventilation effectiveness forthe room airspace as a whole and for specific locations in the room. The differences in ventilation effectiveness for these twosystems were quantified in terms of VEF. Ventilation in Case B is three times as effective at dust removal as in Case A.Ventilation effectiveness factors at specific locations within the airspace were also plotted on a VEM. One of advantages ofVEF is that a ventilation system can be its own control for comparison of ventilation effectiveness, instead of requiring acontrol and a treatment. This feature is particularly useful in system evaluation or troubleshooting because it is often verydifficult and expensive to have an identical system to compare.
Cite
Citations (14)
A ventilation method to attain an improved indoor air quality under effective use of energy was examined in a small office type experimental room. The experiments were carried out using human subjects. This paper reports the possibilities of ventilation efficiency improvement and lessening of ventilation requirements when upward ventilation is applied, compared to downward ventilation. Upward ventilation leads the high ventilation efficiency because upward ventilation utilizes upward free convection caused by the metabolic heat around a human body. Therefore less ventilation requirement allows to realize a hygienic space with upward ventilation compared to traditional mixing ventilation.
Energy recovery ventilation
Thermal manikin
Cite
Citations (4)
We made in this paper a brief analysis of the following statistics: Intermediate Statistics, Parastatistics, Fractionary Statistics and Gentileonic Statistics that predict the existence of particles which are different from bosons, fermions and maxwellons. We shown the fundamental hypothesis assumed in each one of the above mentioned statistics and their main predictions and compared them with experimental results. Taking into account the works done about these statistics we could say that there is a tendency to believe that real particles, that is, those that can be observed freely, can be only bosons, fermions and maxwellons and that all other particles, different from these would be quasiparticles. Up to date in 3-dim systems only bosons, fermions and maxwellons have been detected freely. Recently in 2-dim systems have been detected the quasiparticles named anyons that have fractionary charges and spins.
Identical particles
Summary statistics
Cite
Citations (3)
Abstract This article explores the use of t statistics based on two-or four-order statistics. The functions of the order statistics, which are used to define the t statistics, are the pivots and bipivots. The pivots are exact order statistics, while the bipivots are the means of two adjacent order statistics. Two t statistics, based on the pivots and bipivots, are examined and compared to other t statistics, including Student's t, under various sampling situations. We conclude that the proposed t statistics are not only simple to use but are robust and perform quite well in terms of the lengths of their confidence intervals. We recommend that these t statistics be used for sample sizes between 4 and 20, because they perform well and are easy to use. Tables of percentage points are provided to facilitate the use of the t statistics.
Summary statistics
Cite
Citations (46)
Zhongtianshan tunnel is 22.449 km long.The 13.8 km entrance section of the tunnel is driven by TBM.Long-distance ventilation during tunneling is one of the important factors that affect the construction progress and economic efficiency.Study is made on the ventilation of Zhongtianshan tunnel on basis of the construction method,driving length and construction organization of the tunnel.Comparison and contrast is made between single-direction long-distance ventilation program and gallery-type combined ventilation program,which indicates that the gallery-type combined ventilation program is the optimum ventilation program.The stage division and number of the ventilation fans needed for the gallery-type combined ventilation program are proposed.The ventilation program is further adjusted during tunneling in accordance with the site ventilation monitoring results so as to meet the actual conditions of the site.In the end,the ventilation program adopted guarantees the successful breakthrough of Zhongtianshan tunnel.
Cite
Citations (0)