Changes in expiratory flow limitation during exercise from pre- to post-puberty

Emerson, Sam R.

January 1900

Master of Science / Department of Kinesiology / Craig A. Harms / Expiratory flow limitation (EFL) during exercise can limit exercise tolerance. We have recently reported a high prevalence of EFL independent of sex in prepubescent children (Swain et al. 2010) that greatly exceeds that reported in adults. It is unknown how maturation and growth from pre- to post-puberty affects pulmonary function, specifically EFL, during exercise. The purpose of this longitudinal study was to investigate the changes in cardiopulmonary function from pre- to post-puberty in boys and girls. We hypothesized that EFL prevalence would decrease from pre- to post-puberty (with boys exhibiting a greater decrease than girls) and that the decrement could be explained by an increase in pulmonary function and a decrease in VE/VCO2. Twenty-one children (ages 12-16 yrs; 11 boys, 10 girls) were recruited from 40 prepubescent children who completed testing in our laboratory ~5 years ago. Subjects completed pulmonary function tests before and after an incremental exercise test to exhaustion (VO2max) on a cycle ergometer. EFL was determined using the percent tidal volume (VT) overlap method. Nineteen of the 21 subjects (10 boys, 9 girls; 90%) exhibited EFL pre-puberty, while only 7 of the 21 subjects (5 boys, 2 girls; 33%) exhibited EFL post-puberty. Of the subjects who experienced EFL post-puberty, all had experienced EFL pre-puberty. Boys had a significantly greater vital capacity (VC) than girls both pre- (~15%) and post-puberty (B: 4.73 ± 0.53; G: 3.80 ± 0.29 L). Maximal aerobic capacity (VO2max) significantly increased (~110% in girls and ~120% in boys) from pre- to post-puberty and was greater (p<0.05) in boys post-puberty (B: 2.76 ± 0.43; G: 1.94 ± 0.35 L/min). VE/VCO2 also significantly decreased (~13%) in both boys and girls. Post-puberty subjects regulated tidal breathing at higher lung volumes (greater ERV/FVC and lower IRV/FVC) during exercise compared to pre-puberty. None of the subjects experienced significant arterial desaturation pre-puberty or post-puberty. Our findings suggest that the prevalence of EFL declines as children mature from pre- to post-puberty, likely due to increases in lung size, decreases in VE/VCO2, and/or changes in breathing mechanics that are greater than increases in maximal ventilation that occur with increased pulmonary gas exchange.

Flow limitation

Exercise

Puberty

Sex differences

Kinesiology (0575)

Two-phase flow experiments in a model of the hot leg of a pressurised water reactor

Seidel, T., Beyer, M.

14 March 2012

In order to investigate the two-phase flow behaviour in a complex reactor-typical geometry and to supply suitable data for CFD code validation, a model of the hot leg of a pressurised water reactor was built at FZD. The hot leg model is operated in the pressure chamber of the TOPFLOW test facility, which is used to perform high-pressure experiments under pressure equilibrium with the inside atmosphere of the chamber. This technique makes it possible to visualise the two-phase flow through large windows, also at reactor-typical pressure levels. In order to optimise the optical observation possibilities, the test section was designed with a rectangular cross-section. Experiments were performed with air and water at 1.5 and 3.0 bar at room temperature as well as with steam and water at 15, 30 and 50 bar and the corresponding saturation temperature (i.e. up to 264°C). The total of 194 runs are divided into 4 types of experiments covering stationary co-current flow, counter-current flow, flow without water circulation and transient counter-current flow limitation (CCFL) experiments. This report provides a detailed documentation of the experiments including information on the experimental setup, experimental procedure, test matrix and on the calibration of the measuring devices. The available data is described and data sheets were arranged for each experiment in order to give an overview of the most important parameters. For the cocurrent flow experiments, water level histograms were arranged and used to characterise the flow in the hot leg. In fact, the form of the probability distribution was found to be sensitive to the boundary conditions and, therefore, is useful for the CFD comparison. Furthermore, the flooding characteristics of the hot leg model plotted in terms of the classical Wallis parameter or Kutateladze number were found to fail to properly correlate the data of the air/water and steam/water series. Therefore, a modified Wallis parameter is proposed, which takes the effect of viscosity into account.

two-phase flow

hot leg

counter-current flow limitation (CCFL)

Wallis correlation

two-phase flow

hot leg

counter-current flow limitation (CCFL)

Wallis correlation

ddc:339

Two-phase flow experiments in a model of the hot leg of a pressurised water reactor

Seidel, Tobias, Vallée, Christoph, Lucas, Dirk, Beyer, Matthias, Deen, Darlianto

26 August 2010

In order to investigate the two-phase flow behaviour in a complex reactor-typical geometry and to supply suitable data for CFD code validation, a model of the hot leg of a pressurised water reactor was built at FZD. The hot leg model is operated in the pressure chamber of the TOPFLOW test facility, which is used to perform high-pressure experiments under pressure equilibrium with the inside atmosphere of the chamber. This technique makes it possible to visualise the two-phase flow through large windows, also at reactor-typical pressure levels. In order to optimise the optical observation possibilities, the test section was designed with a rectangular cross-section. Experiments were performed with air and water at 1.5 and 3.0 bar at room temperature as well as with steam and water at 15, 30 and 50 bar and the corresponding saturation temperature (i.e. up to 264°C). The total of 194 runs are divided into 4 types of experiments covering stationary co-current flow, counter-current flow, flow without water circulation and transient counter-current flow limitation (CCFL) experiments. This report provides a detailed documentation of the experiments including information on the experimental setup, experimental procedure, test matrix and on the calibration of the measuring devices. The available data is described and data sheets were arranged for each experiment in order to give an overview of the most important parameters. For the cocurrent flow experiments, water level histograms were arranged and used to characterise the flow in the hot leg. In fact, the form of the probability distribution was found to be sensitive to the boundary conditions and, therefore, is useful for the CFD comparison. Furthermore, the flooding characteristics of the hot leg model plotted in terms of the classical Wallis parameter or Kutateladze number were found to fail to properly correlate the data of the air/water and steam/water series. Therefore, a modified Wallis parameter is proposed, which takes the effect of viscosity into account.

two-phase flow

hot leg

counter-current flow limitation (CCFL)

Wallis correlation

ddc:532

Two-Phase Flow Experiments on Counter-Current Flow Limitation in a model of the Hot Leg of a Pressurized Water Reactor (2015 test series)

Beyer, Matthias, Lucas, Dirk, Pietruske, Heiko, Szalinski, Lutz

15 February 2017

Counter-Current Flow Limitation (CCFL) is of importance for PWR safety analyses in several accident scenarios connected with loss of coolant. Basing on the experiences obtained during a first series of hot leg tests now new experiments on counter-current flow limitation were conducted in the TOPFLOW pressure vessel. The test series comprises air-water tests at 1 and 2 bar as well as steam-water tests at 10, 25 and 50 bar. During the experiments the flow structure was observed along the hot leg model using a high-speed camera and web-cams. In addition pressure was measured at several positions along the horizontal part and the water levels in the reactor-simulator and steam-generator-simulator tanks were determined. This report documents the experimental setup including the description of operational and special measuring techniques, the experimental procedure and the data obtained. From these data flooding curves were obtained basing on the Wallis parameter. The results show a slight shift of the curves in dependency of the pressure. In addition a slight decrease of the slope was found with increasing pressure. Additional investigations concern the effects of hysteresis and the frequencies of liquid slugs. The latter ones show a dependency on pressure and the mass flow rate of the injected water. The data are available for CFD-model development and validation.

Experiment

CFD

Zweiphasenströmung

Gegenstrombegrenzung

Flutungseigenschaft

Schneckenfrequenz

experiment

CFD

two-phase flow

counter-current flow limitation

flooding characteristic

slug frequency

Two-phase flow experiments in a model of the hot leg of a pressurised water reactor

Seidel, Tobias, Vallée, Christoph, Lucas, Dirk, Beyer, Matthias, Deen, Darlianto

January 2010

In order to investigate the two-phase flow behaviour in a complex reactor-typical geometry and to supply suitable data for CFD code validation, a model of the hot leg of a pressurised water reactor was built at FZD. The hot leg model is operated in the pressure chamber of the TOPFLOW test facility, which is used to perform high-pressure experiments under pressure equilibrium with the inside atmosphere of the chamber. This technique makes it possible to visualise the two-phase flow through large windows, also at reactor-typical pressure levels. In order to optimise the optical observation possibilities, the test section was designed with a rectangular cross-section. Experiments were performed with air and water at 1.5 and 3.0 bar at room temperature as well as with steam and water at 15, 30 and 50 bar and the corresponding saturation temperature (i.e. up to 264°C). The total of 194 runs are divided into 4 types of experiments covering stationary co-current flow, counter-current flow, flow without water circulation and transient counter-current flow limitation (CCFL) experiments. This report provides a detailed documentation of the experiments including information on the experimental setup, experimental procedure, test matrix and on the calibration of the measuring devices. The available data is described and data sheets were arranged for each experiment in order to give an overview of the most important parameters. For the cocurrent flow experiments, water level histograms were arranged and used to characterise the flow in the hot leg. In fact, the form of the probability distribution was found to be sensitive to the boundary conditions and, therefore, is useful for the CFD comparison. Furthermore, the flooding characteristics of the hot leg model plotted in terms of the classical Wallis parameter or Kutateladze number were found to fail to properly correlate the data of the air/water and steam/water series. Therefore, a modified Wallis parameter is proposed, which takes the effect of viscosity into account.

info:eu-repo/classification/ddc/532

ddc:532

Two-phase flow experiments in a model of the hot leg of a pressurised water reactor

Seidel, T., Beyer, M.

January 2011

In order to investigate the two-phase flow behaviour in a complex reactor-typical geometry and to supply suitable data for CFD code validation, a model of the hot leg of a pressurised water reactor was built at FZD. The hot leg model is operated in the pressure chamber of the TOPFLOW test facility, which is used to perform high-pressure experiments under pressure equilibrium with the inside atmosphere of the chamber. This technique makes it possible to visualise the two-phase flow through large windows, also at reactor-typical pressure levels. In order to optimise the optical observation possibilities, the test section was designed with a rectangular cross-section. Experiments were performed with air and water at 1.5 and 3.0 bar at room temperature as well as with steam and water at 15, 30 and 50 bar and the corresponding saturation temperature (i.e. up to 264°C). The total of 194 runs are divided into 4 types of experiments covering stationary co-current flow, counter-current flow, flow without water circulation and transient counter-current flow limitation (CCFL) experiments. This report provides a detailed documentation of the experiments including information on the experimental setup, experimental procedure, test matrix and on the calibration of the measuring devices. The available data is described and data sheets were arranged for each experiment in order to give an overview of the most important parameters. For the cocurrent flow experiments, water level histograms were arranged and used to characterise the flow in the hot leg. In fact, the form of the probability distribution was found to be sensitive to the boundary conditions and, therefore, is useful for the CFD comparison. Furthermore, the flooding characteristics of the hot leg model plotted in terms of the classical Wallis parameter or Kutateladze number were found to fail to properly correlate the data of the air/water and steam/water series. Therefore, a modified Wallis parameter is proposed, which takes the effect of viscosity into account.

info:eu-repo/classification/ddc/339

ddc:339

Two-Phase Flow Experiments on Counter-Current Flow Limitation in a model of the Hot Leg of a Pressurized Water Reactor (2015 test series): Two-Phase Flow Experiments on Counter-Current Flow Limitation in a model of the Hot Leg of a Pressurized Water Reactor (2015 test series)

Beyer, Matthias, Lucas, Dirk, Pietruske, Heiko, Szalinski, Lutz

15 February 2017

Counter-Current Flow Limitation (CCFL) is of importance for PWR safety analyses in several accident scenarios connected with loss of coolant. Basing on the experiences obtained during a first series of hot leg tests now new experiments on counter-current flow limitation were conducted in the TOPFLOW pressure vessel. The test series comprises air-water tests at 1 and 2 bar as well as steam-water tests at 10, 25 and 50 bar. During the experiments the flow structure was observed along the hot leg model using a high-speed camera and web-cams. In addition pressure was measured at several positions along the horizontal part and the water levels in the reactor-simulator and steam-generator-simulator tanks were determined. This report documents the experimental setup including the description of operational and special measuring techniques, the experimental procedure and the data obtained. From these data flooding curves were obtained basing on the Wallis parameter. The results show a slight shift of the curves in dependency of the pressure. In addition a slight decrease of the slope was found with increasing pressure. Additional investigations concern the effects of hysteresis and the frequencies of liquid slugs. The latter ones show a dependency on pressure and the mass flow rate of the injected water. The data are available for CFD-model development and validation.

Dynamics of the free surface of stratified two-phase flows in channels with rectangular cross-sections

Vallée, Christophe

24 April 2012

Stratified two-phase flows were investigated at different test facilities with horizontal test sections in order to provide an experimental database for the development and validation of computational fluid dynamics (CFD) codes. These channels were designed with rectangular cross-sections to enable optimal observation conditions for the application of optical measurement techniques. Consequently, the local flow structure was visualised with a high-speed video camera, delivering data with high-resolution in space and time as needed for CFD code validation. Generic investigations were performed at atmospheric pressure and room temperature in two air/water channels made of acrylic glass. Divers preliminary experiments were conducted with various measuring systems in a test section mounted between two separators. The second test facility, the Horizontal Air/Water Channel (HAWAC), is dedicated to co-current flow investigations. The hydraulic jump as the quasi-stationary discontinuous transition between super- and subcritical flow was studied in this closed channel. Moreover, the instable wave growth leading to slug flow was investigated from the test section inlet. For quantitative analysis of the optical measurements, an algorithm was developed to recognise the stratified interface in the camera frames, allowing statistical treatments for comparison with CFD calculation results. The third test apparatus was installed in the pressure chamber of the TOPFLOW test facility in order to be operated at reactor typical conditions under pressure equilibrium with the vessel atmosphere. The test section representing a flat model of the hot leg of the German Konvoi pressurised water reactor (PWR) scaled at 1:3 is equipped with large glass side walls in the region of the elbow and of the steam generator inlet chamber to allow visual observations. The experiments were conducted with air and water at room temperature and maximum pressures of 3 bar as well as with steam and water at boundary conditions of up to 50 bar and 264°C. Four types of experiments were performed, including generic test cases as well as transient validation cases of typical nuclear reactor safety issues. As an example, the co-current flow experiments simulate the two-phase natural circulation in the primary circuit of a PWR. The probability distribution of the water level measured in the reactor pressure vessel simulator was used to characterise the flow in the hot leg. Moreover, the flooding behaviour in this conduit was investigated with dedicated counter-current flow limitation experiments. A comparison of the flooding characteristics with similar experimental data and correlations available in the literature shows that the channel height is the characteristic length to be used in the Wallis parameter for channels with rectangular cross-sections. Furthermore, for the analysis of steam/water experiments, condensation effects had to be taken into account. Finally, the experimental results confirm that the Wallis similarity is appropriate to scale flooding in the hot leg of a PWR over a large range of pressure and temperature conditions. Not least, different examples of comparison between experiment and simulation demonstrate the possibilities offered by the data to support the development and validation of CFD codes. Besides the comparison of qualitative aspects, it is shown exemplarily how to treat the CFD results in order to enable quantitative comparisons with the experiments.

HAWAC

TOPFLOW

stratified two-phase flows

high-speed camera observation

videometry

HAWAC

TOPFLOW

steam/water experiments

hot leg model

counter-current flow limitation

CCFL

CFD validation

ddc:532

Uso do EPAP melhora a tolerância ao esforço em indivíduos com limitação do fluxo aéreo / Positive expiratory pressure breathing improves exercise tolerance in patients with airflow limitation

Zager, Marcelo

03 September 2007

Made available in DSpace on 2016-12-06T17:07:14Z (GMT). No. of bitstreams: 1 Marcelo Zager.pdf: 350286 bytes, checksum: 304a5bbf1636c8425f76f001a77b8f7b (MD5) Previous issue date: 2007-09-03 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Introdução: A Doença Pulmonar Obstrutiva Crônica (DPOC) é caracterizada pela limitação crônica do fluxo aéreo que não é totalmente reversível, geralmente progressiva e que leva a grande incapacidade funcional. Objetivo: O objetivo deste estudo foi investigar o efeito da pressão expiratória positiva nas vias aéreas (EPAP) sobre a tolerância ao esforço de portadores de DPOC. Métodos: Foram analisados 11 sujeitos com diagnóstico de DPOC, os quais realizaram três testes de caminhada de seis minutos alocados randomicamente: controle(TC), placebo(TP) e experimental(TE). O teste placebo foi realizado somente com máscara sobre o rosto e o teste experimental com máscara acoplada a um resistor expiratório por carga de mola ajustado para oferecer uma pressão de 5 cmH2O. Foi avaliada a distância percorrida, a dispnéia e percepção de esforço em membros inferiores pela escala de Borg e comportamento da freqüência cardíaca em cada teste. As variáveis foram avaliadas através de análise de variância no programa estatístico SPSS. Resultados: Para distância percorrida houve diminuição da distância com a aplicação de placebo (p>0,05) e aumento do TE (p>0,05), mas comparando-se com TP com o TE foi encontrada melhora significativa (p>0,01). Houve redução na dispnéia no TP (p>0,05) e aumento do TE (p>0,05); para esforço percebido houve aumento no TP (p>0,05) como no TE (p>0,05). Comparando-se o TC com TP, dispnéia e esforço perceptivo manifestaram-se mais precocemente no TP. Comparando o TC com TE a dispnéia se manifestou precocememte que no TP, mas a percepção de esforço aumentado em membros inferiores se manisfestou mias tardiamente no TE em comparação com TC. Nenhuma das variações foi estatisticamente significativa para o tempo de manifestação de dispnéia ou percepção de esforço. Houve um incremento médio de 28% na freqüência cardíaca do TC para o TP, mantendo a mesma variação entre o TC e o TE (p>0,05). Conclusão: Ocorreu significativa melhora na tolerância ao esforço com a aplicação de EPAP, mesmo que acompanhada de significativo incremento da dispnéia. A freqüência cardíaca manteve-se mais alta durante a aplicação de EPAP.

limitação do fluxo aéreo

doença pulmonar obstrutiva crônica

tolerância ao esforço

respiração artificial

flow limitation

chronic obstructive pulmonary disease

effort tolerancy

artificial respiration

CNPQ::CIENCIAS DA SAUDE::EDUCACAO FISICA

Análise do efeito do envelhecimento e da doença pulmonar obstrutiva crônica sobre a limitação ao fluxo expiratório por meio da técnica de pressão expiratória negativa / Analysis of the effect of aging and chronic obstructive pulmonary disease on expiratory flow limitation by the negative expiratory pressure technique

Illene Teixeira

07 March 2012

O termo limitação ao fluxo expiratório (LFE) refere-se a uma condição na qual o fluxo expiratório máximo obtido durante um ciclo da respiração espontânea é menor que o previsto e permanece constante apesar do aumento do gradiente pressórico. A LFE pode estar presente durante o envelhecimento pulmonar fisiológico, e em afecções pulmonares obstrutivas, como na doença pulmonar obstrutiva crônica (DPOC). A aferição direta para determinar a LFE requer a mensuração do volume pela relação entre o fluxo e a pressão transpulmonar, porém é um método invasivo. Os testes usualmente empregados estão baseados na comparação da curva fluxo-volume expiratório máximo e corrente, porém estas técnicas requerem alto grau de colaboração do indivíduo e podem gerar alteração do tônus muscular brônquico. Estudos sugerem que a Técnica de Pressão Expiratória Negativa (NEP) pode ser aplicada para detecção da LFE, sendo um método simples, não invasivo e que não requer esforço dos voluntários. Contudo, índices quantitativos para a avaliação deste fenômeno ainda não foram definidos, assim como também não foram estudadas a LFE no processo de envelhecimento e nos diversos estágios de obstrução das vias aéreas na DPOC. Neste contexto, os objetivos deste estudo foram: (1) avaliar o comportamento da LFE durante o processo de envelhecimento e (2) estudar a LFE presente nos portadores de DPOC. Trata-se de um estudo transversal controlado com avaliação de casos prevalentes, tendo como unidade de avaliação o indivíduo. Os exames realizados incluíram medidas de espirometria e NEP. Foram selecionados indivíduos saudáveis para o grupo envelhecimento separados em três grupos: grupo jovem (GJ), n=17; grupo meia idade (GMI), n=17 e grupo idoso (GI), n=17. No grupo DPOC foram selecionados indivíduos tabagistas e com doença obstrutiva, sendo classificados de acordo com o nível de obstrução sugerido pela espirometria. Essa classificação resultou em cinco categorias: indivíduos normais ao exame espirométrico (NE, n= 18); com distúrbio ventilatório obstrutivo leve (DVOL, n=15); distúrbio ventilatório obstrutivo moderado (DVOM, n= 18); distúrbio ventilatório obstrutivo acentuado (DVOA, n= 18) e distúrbio ventilatório obstrutivo muito acentuado (DVOMA, n= 18). Todos os indivíduos realizaram os exames de NEP e posteriormente foram submetidos à espirometria. No estudo sobre envelhecimento o parâmetro LFE% foi o que melhor caracterizou a LFE, apresentando uma correlação moderada com a idade. Os parâmetros &#8710;EF0-50% e &#8710;EF25-75% apresentaram uma correlação razoável com o progredir da idade, possivelmente devido a LFE no idoso apresentar componentes relacionadas às vias aéreas superiores. No grupo DPOC a NEP caracterizou adequadamente a LFE, sendo o melhor parâmetro a LFE%. Alterações significativas também foram encontradas com os parâmetros &#8710;EF0-50% e &#8710;EF25-75%. Avaliando-se a influência da idade neste grupo, pode-se observar que a idade é um fator de contribui para a LFE, no entanto, o efeito preponderante foi a gravidade da doença. Pode-se concluir que: (1) a NEP é útil no estudo da LFE em idosos saudáveis; (2) nestes indivíduos a LFE ocorre principalmente nas vias aéreas extratorácicas; (3) que a NEP é útil na avaliação de pacientes com DPOC, e: (4) que os efeitos da DPOC se sobrepõe ao efeito do envelhecimento. / The term expiratory flow limitatition (EFL) refers to a condition in which the peak flow obtained during a spontaneous breathing cycle is less than expected and remains constant despite the increased pressure gradient. The EFL may be present during the physiological aging lung and obstructive lung diseases such as chronic obstructive pulmonary disease (COPD). Direct assessment of EFL requires determination of iso-volume relationships between flow and trans-pulmonary pressure, however, this is an invasive method. The conventional method to detect EFL is based on comparison of tidal with maximal flow-volume curves, but this test requires a high degree of pacients cooperation and the maneuvers of forced expiration and inspiration can change the bronchial tone. Previous studies suggest that the Negative Expiratory Pressure technique (NEP) can be applied to detect EFL, and that it is a simple and noninvasive technique, which requires no effort of volunteers. However, quantitative indices for evaluating this phenomenon has not been defined, as well as the EFL have not been studied in aging and in various stages of COPD airway obstruction. In this context, the aims of this study were (1) evaluate the EFL during the aging process and (2) study the EFL present in COPD. This is a cross-controlled study evaluation of prevalent cases, with the evaluation unit the individual. The examinations included measurement of NEP and spirometry. We selected healthy individuals divided in three groups: young group (GJ, n = 17); middle aged group (GMI, n = 17) and elderly group (GI, n = 17). In the COPD group we selected smoking subjects and people with obstructive disordered, classified in five categories according to the level of obstruction suggested by spirometry: normal spirometric exam (n = 18); mild obstruction (n = 15); moderate obstruction (n=18), severe obstruction (n = 18) and very severe obstruction (n=18). In the aging group, LFE% parameter was the more adequate to characterize the EFL present during the aging process, showing a moderate correlation. The parameters &#8710;EF0-50% and &#8710;EF25-75% showed a reasonable correlation with the progression of age, possibly because the EFL in the elderly have components of the upper airways. In the COPD group, the more adequate parameter to characterize the EFL was the LFE%. Significant changes were also found with the parameters &#8710;EF0-50% and &#8710;EF25-75%. Evaluating the influence of age in this group, it can be seen that age contributes for the LFE. However, the effect of the disease was higher than that associated with ageing. It can be concluded that: (1) NEP is a useful tecnique in the study of LFE in healthy elderly people, (2) In these individuals the LFE occurs mainly in the extrathoracic airways, (3) NEP tecnique is useful in evaluating patients with COPD, and: (4) the effects of COPD diseases overlaps the effect of aging.

Doença pulmonar obstrutiva crônica

Envelhecimento

Limitação ao fluxo expiratório

Espirometria

Sistema respiratório

Chronic obstructive pulmonary disease

Ageing

Expiratory flow limitation

Spirometry

Negative expiratory pressure technique

Respiratory system

FISIOLOGIA DA RESPIRACAO