Ecofisiologia e produtividade de Bambusa, Eucalyptus e Salix em sistemas florestais de curta rotação / Ecofisiological and productivity of Bambusa, Eucalyptus and Salix in short rotation woody crops

Vergara, Gabriela Carolina Villamagua

04 June 2018

Submitted by GABRIELA CAROLINA VILLAMAGUA VERGARA (g_villamagua@yahoo.com) on 2018-07-28T04:37:09Z No. of bitstreams: 1 Tese Gabriela Villamagua 3.2.pdf: 1881061 bytes, checksum: 7701b89454927308fd0bc3786253c83a (MD5) / Approved for entry into archive by Ana Lucia de Grava Kempinas (algkempinas@fca.unesp.br) on 2018-07-30T13:27:32Z (GMT) No. of bitstreams: 1 vergara_gcv_dr_botfca.pdf: 1881061 bytes, checksum: 7701b89454927308fd0bc3786253c83a (MD5) / Made available in DSpace on 2018-07-30T13:27:32Z (GMT). No. of bitstreams: 1 vergara_gcv_dr_botfca.pdf: 1881061 bytes, checksum: 7701b89454927308fd0bc3786253c83a (MD5) Previous issue date: 2018-06-04 / Outra / Com a necessidade de buscar espécies florestais mais eficientes na utilização dos recursos naturais como luz, água e nutrientes, o que pode possibilitar um incremento da biomassa da parte aérea, o objetivo do presente trabalho foi o de quantificar as taxas de crescimento, eficiência da utilização da luz, água e nutrientes de florestas energéticas sob mesmas condições de solo, altitude e manejo. Foram utilizados plantios adensados de Bambusa vulgaris, híbrido espontâneo de Eucalyptus urophylla – clone AEC-144, híbrido interespecífico de Eucalyptus grandis × Eucalyptus urophylla - clone LW07 e Salix nigra. A determinação da produtividade primária líquida do tronco (PPLT), eficiência do uso da luz (EUL), eficiência do uso da água (EUA) foram obtidas através de acompanhamentos mensais e individuais em 15 plantas por espécie, no período de 12 meses. Foi obtido dados de: diâmetro e altura total das plantas, e posteriormente, taxa fotossintética (A), taxa transpiratória (E) e condutância estomática (gs). Foi realizada ainda a determinação do índice de vegetação e a coleta de amostras para determinação de macro e micronutrientes em laboratório. A espécie B. vulgaris apresentou o maior valor de biomassa por planta e, consequentemente, os maiores incrementos em matéria seca por planta (8,07 kg pl-1 e 1,56 kg pl-1 ano-1, respectivamente), no entanto, observou-se que clone de E. urophylla AEC-144 obteve maior eficiência no uso da luz por área (1,80 g MJ-1) e maior eficiência intrínseca no uso da água (68,09 μmol CO2 mol H2O-1). Em relação à eficiência do uso da água, o clone E. grandis × E. urophylla - LW07 apresentou o maior valor (4,93 μmol CO2 mol H2O-1). Nota-se que houve diferença em relação ao acúmulo de nutrientes entre as espécies estudadas, sendo que os maiores valores obtidos foi observado em B. vulgaris. / In the search for forest species more efficient in the use of resources (light, water and nutrients) to increase aerial biomass, this study aimed to quantify the growth, light, water and nutrients use efficiency of short rotation plantations under the same conditions of soil altitude and management of Bambusa vulgaris, the spontaneous hybrid of Eucalyptus urophylla - clone AEC-144, interspecific hybrid of Eucalyptus grandis × Eucalyptus urophylla - clone LW07 and Salix nigra. To determine truck net primary productivity trunk (TNPP), light use efficiency (LUE) and water use efficiency (WUE), 15 plants per treatment were monitored monthly for 12 months. Plants diameter and total height were collected, as well as photosynthetic rate (A), transpiration rate (E) and stomatal conductance (gs), using infrared gas analyzer (IRGA) (LI-COR 6400). Vegetation index was also obtained using AccuPAR (LP-80) ceptometer and were collected samples for determination of macro and micronutrients in the laboratory. Bambusa vulgaris was the species that obtained the highest biomass per plant ratio and consequently higher net primary productivity (8.07 kg pl-1 and 1.56 kg pl-1 year-1, respectively), however, clone AEC-144 showed higher light use efficiency per area (1.80 g MJ-1) and higher intrinsic water use efficiency (68.09 μmol CO2 mol H2O-1). Clone LW07 obtained the highest value (4.93 μmol CO2 mol H2O-1) of instantaneous water use efficiency, when compared to other species. There was a difference in nutrient accumulation between species, and the highest values were observed in Bambusa vulgaris.

PPL

Biomassa aérea

APAR

Eficiência de transpiração

EUN

NPP

Biomass above ground

Transpiration efficiency

NUE

Determinação da transpiração da cana-de-açúcar por métodos térmicos / Determination of transpiration of sugarcane by thermal methods

Boehringer, Davi

28 July 2010

Made available in DSpace on 2015-03-26T13:50:07Z (GMT). No. of bitstreams: 1 texto completo.PDF: 2973860 bytes, checksum: 9a5b7c9ac54c42849ba6e4ec6a3f1759 (MD5) Previous issue date: 2010-07-28 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / The main objective of this research was to evaluate the applicability of thermal methods for measuring sugarcane sap flow under different environmental conditions. For the evaluation of methods (energy balance and heat pulse) measurement events were conducted in a greenhouse according to the transpiration and the sugarcane sap flow under cloudy skies and partly cloudy conditions. The experiment was conducted at the experimental field of Agricultural Meteorology sector from the Department of Agricultural Engineering, Federal University of Viçosa, Minas Gerais. The monitoring of meteorological data within the greenhouse was performed by a computerized data acquisition. It was able to monitor the sap flow from the due sugarcane culture and control the electric power applied to the resistive terminals of the heat source. Based on the results, was noticed that the water needing for the sugarcane culture in hourly and daily scale, may be adequately determined by means of sap flow measurements for using the method of energy balance according to the segment of stem. However, even with the large volume of stored sap in the stems and the low sap flow speed compared to other cultures, the heat pulse method could not be implemented through the methodology proposed on a classical knowledge literature. Only with the application of longer pulses in a scale of minutes instead of seconds, it was possible to detect temperature variations that could be measured by the current data acquisition system. Thus such in order to be applied to the studied sugarcane, the theory of heat pulse method needs to be adapted from specific studies in that matter. It was noticed that, both as the low stream temperature, as the high stream temperature of the heat source show differences after the application of heat pulse in different times of the day, responding with transpiration changing compared to a day of clear skies. It was also observed that the component of heat storage in the stem cannot be disregarded for the energy balance as proposed by some authors for measurements performed in other cultures. Moreover, considering the significant diameter of the stems is necessary to install four thermocouples to obtain the temperature of the sap in the levels above and below from the heat source, two from those inserted in the center and other two in its surface. An additional thermocouple should be placed in the center of the blanket insulation, at the heat source, to quantify the axial and radial conduction of heat. The transpiration of individual sugarcane plants was slightly underestimated by the method of energy balance in the hourly scale (RMSE = 14,6 g planta-1 h-1; MBE = -4,7 g planta-1 h-1; r = 0,9065; d = 0,9432) and daily (RMSE = 97,1 g planta-1 d-1; MBE = -56,2 g planta-1 d-1; r = 0,9369; d = 0,9488), with differences about 4% compared to maximum values of transpiration measured. With the procedure of the new research for improvement of this technique, the energy balance method has great potential to become a referential technique for calibration of other similar methods in order to quantify the water flow of vapor from sugarcane to the atmosphere. / O objetivo principal foi avaliar a aplicabilidade de métodos térmicos para medição do fluxo de seiva da cana-de-açúcar sob condições ambientais distintas. Para a avaliação dos métodos (balanço de energia e pulso de calor), foram realizadas campanhas de medição da transpiração e do fluxo de seiva da cana-de-açúcar em uma casa de vegetação. O experimento foi conduzido na área experimental do setor de Meteorologia Agrícola, pertencente ao Departamento de Engenharia Agrícola da Universidade Federal de Viçosa, Minas Gerais. O monitoramento dos dados meteorológicos no interior da casa de vegetação foi realizado por meio de um sistema computadorizado de aquisição de dados. Ele foi capaz de monitorar o fluxo de seiva da cana-de-açúcar e de controlar a potência elétrica aplicada nos terminais resistivos da fonte de calor. Constatou-se que as necessidades hídricas da cultura da cana-deaçúcar, em escala horária e diária, podem ser determinadas, de forma adequada, por meio de medições do fluxo de seiva com o método do balanço de energia em um segmento de caule. No entanto, em decorrência do grande volume de seiva armazenada nos colmos e da baixa velocidade de deslocamento da seiva em comparação com outras culturas, o método do pulso de calor não pôde ser implementado por meio da metodologia clássica proposta na literatura. Somente com a aplicação de pulsos mais prolongados, em escala de minutos ao invés de segundos, foi possível detectar variações de temperatura que pudessem ser mensuradas pelo sistema de aquisição de dados. Desta forma, para que possa ser aplicada para a cana-de-açúcar, a teoria do método do pulso de calor precisa ser adaptada a partir de estudos específicos. Notou-se que, tanto a temperatura da seiva acima, quanto a temperatura abaixo da fonte de aquecimento comportam-se de maneira distintas após a aplicação do pulso de calor nos diversos horários do dia, respondendo às variações da transpiração para um dia de céu claro. Foi observado também que o componente do armazenamento de calor no caule não pode ser desconsiderado no balanço de energia como foi proposto por alguns autores para medições realizadas em outras culturas. Por outro lado, devido ao diâmetro expressivo dos colmos, é necessário instalar quatro termopares para obtenção da temperatura da seiva nos níveis acima e abaixo da fonte de aquecimento, sendo dois inseridos no centro e outros dois na superfície do colmo. Um termopar adicional deve ser colocado no centro da manta de isolamento térmico, ao nível da fonte de aquecimento, para quantificação da condução axial e radial de calor. A transpiração de plantas individuais de cana-de-açúcar foi ligeiramente subestimada pelo método do balanço de energia em escala horária (RMSE = 14,6 g planta-1 h-1; MBE = -4,7 g planta-1 h-1; r = 0,9065; d = 0,9432) e diária (RMSE = 97,1 g planta-1 d-1; MBE = -56,2 g planta-1 d-1; r = 0,9369; d = 0,9488), com diferenças da ordem de 4% em relação aos valores máximos de transpiração medidos. Com a realização de novas pesquisas para aprimoramento desta técnica, o método do balanço de energia tem grande potencial para se tornar a técnica de referência na calibração de outros métodos utilizados para quantificação do fluxo de vapor d’água da cana-de-açúcar para a atmosfera.

Cana-de-açúcar

Transpiração

Fluxo de seiva

Sugarcane

Transpiration

Sap flow

Thermal Performance of PNIPAm as an Evaporative Cooling Medium within a Ventilated Wall Cavity

January 2018

abstract: Learning from the anatomy of leaves, a new approach to bio-inspired passive evaporative cooling is presented that utilizes the temperature-responsive properties of PNIPAm hydrogels. Specifically, an experimental evaporation rate from the polymer, PNIPAm, is determined within an environmental chamber, which is programmed to simulate temperature and humidity conditions common in Phoenix, Arizona in the summer. This evaporation rate is then used to determine the theoretical heat transfer through a layer of PNIPAm that is attached to an exterior wall of a building within a ventilated cavity in Phoenix. The evaporation of water to the air gap from the polymer layer absorbs heat that could otherwise be conducted to the interior space of the building and then dispels it as a vapor away from the building. The results indicate that the addition of the PNIPAm layer removes all heat radiated from the exterior cladding, indicating that it could significantly reduce the demand for air conditioning at the interior side of the wall to which it is attached. / Dissertation/Thesis / Masters Thesis Built Environment 2018

Engineering

Architectural engineering

Alternative energy

bio-inspired

building material

evaporative cooling

transpiration

Avaliação do uso do fluxo de seiva e da variação do diâmetro do caule e de ramos na determinação das condições hídricas de citros, como base para o manejo de irrigação. / Evaluation of the use of sap flow and the variation of stem and branches diameter in the determination of citrus water status, as a base for irrigation.

Juan Sinforiano Delgado Rojas

22 April 2003

Uma dificuldade para o manejo adequado da irrigação em espécies de plantas perenes, como por exemplo num pomar, é determinar o momento e a quantidade de água que deverá ser aplicada. Há vários métodos tradicionais de medida de consumo diário de água, assim como indicadores do déficit hídrico, mas cada um apresenta seu grau de dificuldade de uso no campo que levam, às vezes, à aproximações pouco exatas. Diante destes problemas e levando em consideração a importância dos citros na economia nacional, o presente trabalho teve dois objetivos principais: a) avaliar dois métodos de determinação de fluxo de seiva para a estimação da taxa de transpiração diária de plantas de lima ácida 'Tahiti' e, b) avaliar o uso da contração radial do ramo ou caule (utilizando um dendrômetro de precisão) e da transpiração relativa da planta (estimada a partir do fluxo de seiva), como indicadores vegetais diretos de deficiência hídrica. Para atingir estes objetivos, foram instalados experimentos em dois pomares, um de plantas jovens e outro de plantas adultas, de lima ácida 'Tahiti'. Os métodos de determinação da transpiração (fluxo de seiva) foram o de balanço de calor (BC) e o da sonda de dissipação térmica (SDT). A comparação entre os dois métodos em um ramo de uma planta adulta, e a comparação do SDT com medidas lisimétricas em plantas jovens, demonstrou o bom desempenho de ambos e sua possibilidade de uso na quantificação da transpiração em citros, principalmente como subsídio à irrigação localizada. No BC há necessidade de precauções para minimizar erros devidos à variações espúrias que os valores de fluxo de seiva sofrem ao longo do período matinal ou de superestimativas no período noturno. No caso da SDT, uma fonte de erro que causa subestimativa é a ocorrência de gradiente térmico natural no caule/ramos nas regiões de medida da sonda, com necessidade de corrigir o erro para medidas mais acuradas. A SDT mostra-se uma técnica confiável e de vantagens em relação ao BC, pela menor complexidade e custo. As variáveis dendrométricas do caule/ramos, recomendadas na bibliografia como indicadoras de estresse hídrico (variação da amplitude diária de contração, da diferença em dias subsequentes do diâmetro máximo e do diâmetro mínimo), mostraram-se problemáticas, pela complexa relação que apresentam com a disponibilidade hídrica no solo, demanda evaporativa do ar e tamanho do caule. A análise da evolução do diâmetro máximo diário e, também, do diâmetro médio mostrou potencialidade de uso como técnica indicadora de estresse hídrico. No entanto, recomenda-se estudos mais aprofundados que considerem regimes hídricos do solo diferenciados e com imposição de secagem mais acentuada, além de se levar em conta características próprias de resposta de espécies cítricas à disponibilidade hídrica do solo e à demanda atmosférica. A transpiração relativa, expressa pela relação entre a transpiração atual e a transpiração máxima (calculada por unidade de área foliar), guardou relação com a variação da disponibilidade hídrica do solo, mas comparada à análise da evolução do diâmetro máximo do caule, mostrou-se menos estável. / A difficulty for the appropriate handling of irrigation of perennial plants like orchards is to determine the moment when and the amount of water that should be applied. There are several traditional methods to determine water nsumption, as well as indicators of water stress.However, they all have difficulties when used in the field because their approaches are not very accurate. Taking into consideration these problems and the importance of citrus in the economy of the state of São Paulo, the present work had two main objectives: a) to evaluate two methods for the estimation of sap flow in the determination of the daily rate of transpiration of plants of 'Tahiti' lime and b) to evaluate the use of the variation of the stem/branches diameter (by using a precision dendrometer) and the relative transpiration (estimated starting from the sap flow) as direct plant indicators of water stress. To reach these objectives, experiments were set up in two orchards of 'Tahiti' lime, one of young plants and another of adult plants. The methods for the determination of the transpiration (sap flow) were: the heat balance method (HBM) and the heat dissipation probe method (HDPM). The comparison between the two methods in a branch of an adult plant and the comparison of HDPM with lisimeter measurements in young plants demonstrated the accuracy of both methods for the quantification of the transpiration in citrus, mainly as a tool for located irrigation. With HBM, precautions should be taken to minimize errors due to spurious variations of sap flow values along the morning or overestimation of the values during night. With HDPM, the occurrence of a natural thermal gradient in the branch or stem is an error source that causes underestimation and that should be taken into account for accurate estimations. HDPM has shown to be a reliable technique with advantages over HBM for its less complexes and lower cost. The use of dendrometric variables of the stem (the variation of the daily contraction, the maximum diameter and the minimum diameter), in the literature recommended as indicative of water stress, is problematic because of the complex relationship that they have with the soil water status, the atmospheric water demand and the size of the stem. The analysis of the evolution of the daily maximum diameter and also, of the mean diameter are potential indicative techniques of plant water stress. However, more profound studies under different soil moisture regimes, with imposition of severe drying of the soil, that also take into account specific response characteristics of citrus species to the soil water status and the atmospheric water demand are needed. The relative transpiration (RT), expressed by the relationship between the current transpiration and the maximum transpiration (calculated by unit of leaf area), was related to the soil water status variation. However, its relation with the analysis of the evolution of the maximum diameter of the stem was less stable.

citricultura

deficiência hídrica

dendrometria

irrigação

pomar

transpiração vegetal

citriculture

dendrometer

irrigation

orchard

plant transpiration

water deficit

Padrões de resposta do pessegueiro cv. Maciel a diferentes níveis de déficit hídrico. / Response standard of peach tree cv. Maciel to different levels of hydric deficit.

Simões, Fabiano

02 August 2007

Made available in DSpace on 2014-08-20T14:22:06Z (GMT). No. of bitstreams: 1 Dissertacao_ Fabiano_Simoes.pdf: 1500013 bytes, checksum: 1e1bc978ca3fd6415ef1cdd0eba3b95b (MD5) Previous issue date: 2007-08-02 / The peach fruit production for processing in Southern of Rio Grande do Sul responds for 90% of the national production. The droughts probabilities in the summer in this region have coincided with the critical periods to water lack of the culture. Therefore, it becomes necessary a supplementation by irrigation aiming high quality for both culture and fruit production. The objective of this work was to assess responses standard of the peach tree cv. Maciel to different levels of water stress. It was carried out two experiments using trees cultivated into weight lysimeter at Embrapa Clima Temperado, Pelotas/RS, during 2005/06 and 2006/07 crops. The irrigation levels were based on plant transpiration. Thus, the levels in the fist experiment were: N1 100% of transpirated water replacement, N2 80%, N3 60 % and N4 40%. In the second experiment the values were 100%, 75%, 50% and 25% respectively. It was possible to observe that the soil water restriction alters the growth and the final length of the one-year-old branches of peach tree. Water restrictions above 40% of water in relation to maximum transpiration cause precocious leaves fall of peach tree. The reference evapotranspiration calculated by the simplified Penman method presents slight relation with transpiration, evidencing its potentiality for the transpiration estimation of the peach tree. The water evaporation measured with a Piche evaporimeter is not appropriate for the estimation of the maximum transpiration of the peach tree. The soil water restriction above 20% of the maximum transpiration alters the fruits growth curve and reduces final size of the peaches fruits; however it does not alter the physico-chemical qualities. The water matric potential in the soil presents slight relation to leaf water potential, being used as an indicator of hydric stress in peach tree. The leaf water potential in peach tree considerably decreases from sunrise to noon showing an aniso-hydric model. The estomatic resistance and water potential on the leaf in peach trees at the sunrise or at noon are good indicators of hydric stress. Peach trees show a rapid recovery of its hydratation state in short periods of hydric deficit, supportting water restrictions up to 75% of water in relation to the maximum transpiration. (Support: FAPERGS) / A produção de pêssego para processamento no sul do Rio Grande Sul corresponde a 90% da produção nacional. As probabilidades de secas no verão nesta região têm coincidido com os períodos críticos à falta de água da cultura, o que torna necessária a suplementação através da irrigação visando maior qualidade no cultivo e na produção de frutos. O objetivo deste trabalho foi avaliar padrões de repostas do pessegueiro, cv. Maciel, a diferentes níveis de déficit hídrico. Foram realizados dois experimentos com plantas cultivadas em lisímetros de pesagem, na sede da Embrapa Clima Temperado, Pelotas/RS, durante as safras 2005/06 e 2006/07. Os níveis de irrigação foram baseados na transpiração das plantas, sendo que para o primeiro experimento os níveis foram: N1 - 100 % de reposição de água transpirada, N2 80%, N3 60 % e N4 40%, e no segundo experimento estes valores foram 100%, 75%, 50% e 25% respectivamente. Foi observado que a restrição de água no solo altera o crescimento e o tamanho final dos ramos do ano em pessegueiros. Restrições acima de 40% de água em relação à transpiração máxima causam queda precoce das folhas de pessegueiro. A evapotranspiração de referência calculada pelo método Penman simplificado apresenta estreita relação com a transpiração, evidenciando a potencialidade de seu emprego para estimativa da transpiração do pessegueiro. A evaporação d'água medida com evaporímetro de Piche não é apropriada para estimar a transpiração máxima do pessegueiro. A restrição hídrica do solo acima de 20% da transpiração máxima altera a curva de crescimento dos frutos e reduz tamanho final dos frutos de pessegueiro, porém não altera suas qualidades físico-químicas. O potencial matricial de água no solo apresenta estreita relação com o potencial da água na folha, podendo ser utilizado como indicador de estresse hídrico em pessegueiro. O potencial da água na folha em pessegueiros diminui acentuadamente do amanhecer ao meio-dia, demonstrando um padrão aniso-hídrico. A resistência estomática e o potencial da água na folha, ao amanhecer e ao meio-dia, em pessegueiros são adequados indicadores de estresse hídrico. O pessegueiro apresenta rápida recuperação de seu estado de hidratação em curtos períodos de déficit hídrico, podendo suportar restrições de até 75% de água em relação à transpiração máxima. (Apoio: FAPERGS)

Prunus persica

Água

Transpiração

Crescimento

Prunus persica

Water

Transpiration

Growth

Development

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

An in situ kinetic investigation of the selective dissolution mechanism of Cu alloys / Une étude cinétique in situ du mécanisme de dissolution sélective des alliages de Cu

Zhou, Peng

13 October 2017

Les mécanismes de dissolution sélective des alliages de Cu dans l'eau du robinet et la solution de transpiration ont été étudiés. La spectroélectrochimie d'émission atomique a été utilisée. La première partie de la thèse portait sur le mécanisme de dissolution de Cu. La plupart des espèces de Cu (II) sont solubles et sont libérées dans l'eau, laissant derrière eux un film de Cu2O. Une analyse cinétique suggère que le mécanisme de dissolution implique la dissolution simultanée du Cu et la formation du film. La deuxième partie a étudié la dissolution de Cu-42Zn et Cu-21Zn-3Si-P. Un processus de dissolution en deux étapes a été proposé: une première étape d'une croissance rapide de la couche dézincitée et une deuxième étape où la croissance de la couche dézincitée était plus lente. La troisième partie s'est concentrée sur l'effet du contenu de Zn sur la dissolution des alliages de Cu-Zn. Le mécanisme de dissolution a été clarifié. Pour la phase ?: une étape initiale dans laquelle Cu et Zn sont oxydés de manière congruente, mais seulement Zn2+ a été libéré dans l'eau, Cu formant un film Cu2O et une deuxième étape où le Cu2+ a été libéré dans l'eau. Pour la phase ?', la deuxième étape est identique à la phase initiale. L'augmentation de la teneur en Zn entraîne une extension temporelle du stade initial et retardent la libération de Cu2+. La partie finale a porté sur l'effet de la libération de Sn on Cu provenant des alliages Cu-Sn. L'effet amélioré de la libération de Sn sur Cu a été identifié. Cependant, l'augmentation de la teneur en Sn n'a pas augmenté monotoniquement l'efficacité de libération de Cu des alliages de Cu-Sn, ce qui était dû à la passivité de Sn. / The selective dissolution mechanisms of Cu alloys in tap water and perspiration solution were investigated. Atomic emission spectroelectrochemistry (AESEC) was used to obtain the elemental dissolution kinetics. The first part of the thesis focused on the dissolution mechanism of Cu. Most Cu(II) species are soluble and are released into tap water, leaving behind a Cu2O film on the surface. A kinetic analysis suggests that the dissolution mechanism involves simultaneous Cu dissolution and film formation. The second part investigated the dissolution behavior of Cu-42Zn and Cu-21Zn-3Si-P. A two-stage dissolution process of dezincification was proposed: a first stage of a rapid growth of the dezincified layer and a second stage where the growth of dezincified layer was much slower. The third part concentrated on the effect of Zn content on the dissolution of Cu-Zn alloys, by investigating the dissolution behavior of alloys with various Zn content (0-45 wt%). The two-stage dissolution mechanism was further clarified. For α phase: an initial stage in which Cu and Zn are oxidized congruently, but only Zn2+ was released into water, Cu forming a Cu2O film, and a second stage where Cu was released into water in the form of Cu2+. For β' phase, the second stage is the same to the initial stage. The increase of Zn content in the alloy results in a time extension of the initial stage and retard Cu2+ release. The final part focused on the effect of Sn on Cu release from Cu-Sn alloys. The enhanced effect of Sn on Cu release was identified. However, the increase of Sn content didn’t monotonically increase the Cu release efficacy of Cu-Sn alloys, which was due to the passivity of Sn.

Alliages de Cu

Dissolution sélective

Dézincification

Corrosion

L'eau du robinet

Solution de transpiration

Dezincification

Selective dissolition

Tap water

541.3

Understanding how grade 11 Biology teachers mediate learning of the topic on transpiration

Frans, Marian Kauna Nyanyukweni

January 2015

This study emerged in response to the poor performance in Biology at my school. The Ministry of Education Biology (NSSCO) Examiners’ report (2011) for Paper 3 indicates that learners proved to have difficulties in designing experiments, failed to give a distinction between apparatus and the experiment. The 2012 Examiners’ report on transpiration also highlights that learners were not exposed to practical work. Furthermore, the 2012 report notes that teachers need to work on their learners’ drawing and spelling of terms. It is against this backdrop that a qualitative study was conducted at a school in Oshikoto, using a sample of two teachers. The study’s purpose was to investigate how grade 11 Biology teachers mediate learning of the topic on transpiration. Social Constructivism and Pedagogical Content Knowledge formed the framework used to analyse data gathered from document analysis, interviews and observations. The study findings were that teachers use locally available material for demonstration during practical work, elicit prior knowledge, use a chalkboard to summarise content to learners, and use a question and answer method as strategies in mediating learning on transpiration. In addition, the teachers use homework, scaffolding activities, group work, code-switching, feedback on activities, as well as the use of analogies. Despite efforts by participant teachers to mediate learning of transpiration, shortage of equipment for conducting practical work, poor English proficiency among teachers and learners, and little emphasis on graphing by the syllabus proved to be barriers to their efforts. This study thus recommends that in order to improve on teaching transpiration, teachers need to co-plan lessons, conduct practical work, code-switch during lessons, ensure effective assessment, and include lessons on graphing. Furthermore, teachers need continued training on how to teach transpiration.

Language and education

Power Loss Minimization for Drag Reduction and Self-Propulsion using Surface Mass Transpiration

Pritam Giri, *

January 2016

The remarkable efficacy with which normal surface mass transpiration (blowing and suction) alters a given base flow to achieve a desired predefined objective has motivated several investigations on drag reduction, self-propulsion and suppression of separation and wake unsteadiness in bluff body flows. However, the energetic efficiency, a critical parameter that determines the true efficacy and in particular practical feasibility of this control strategy, has received significantly less attention. In this work, we determine the optimal zero net mass transpiration blowing and suction profiles that minimize net power consumption while reducing drag or enabling self-propulsion in typical bluff body flows. We establish the influence of prescribed blowing and suction profiles on the hydrodynamic loads and net power consumption for a representative bluff body flow involving flow past a stationary two-dimensional circular cylinder. Using analysis based on Oseen’s equations, we find that all the symmetric modes, except the first one, lead to an increase in the net power consumption without affecting hydrodynamic drag. The optimal blowing and suction profile that yields minimum power consumption is such that the normal stress acting on the cylinder surface vanishes identically. Furthermore, we show that a self-propelling state corresponding to zero net drag force is attained when the first mode of blowing and suction profile is such that the flow field be-comes irrigational. Based on these findings we employ direct numerical simulation tools to decipher the Reynolds number dependence of the optimal profiles and the associated power consumption for both drag reduction and self-propulsion. For a typical Reynolds number, the time-averaged drag coefficient first decreases due to vortex shedding suppression, then increases and eventually decreases again after attaining a local maximum as the strength of the first mode is increased. The net power consumption continues to decrease with an increase in the strength of the first mode before reaching a minima after which it rises continuously. For a Reynolds number of 1000 over fifteen fold reduction in drag is achieved for an optimal blowing and suction profile with a maximum radial surface velocity that is nearly 1.97 times the free stream velocity. Next, to establish whether or not higher modes play a role in decreasing net power consumption at finite Reynolds number, we perform theoretical analysis of a configuration similar to the one described above for a spherical body. At zero Reynolds number, as a result of mode independence, we show that surface blow-ing and suction of any form that involves second or higher order axisymmetric or non-axisymmetric modes does not contribute to drag and only leads to an increase in total power consumption. However, at finite Reynolds number, using analysis based on Oseen’s equations, we find that the second and higher modes contribute substantially to the optimal profiles. Finally to understand the effects of a change in shape we consider generalization of the above analysis to axisymmetric prolate and oblate spheroidal bodies. We find that for a general axisymmetric body with non-constant curvature, the optimal drag reducing and self-propelling blowing and suction profiles for minimum power consumption contain second and higher-order modes along with the first mode even when the Reynolds number is zero. The net decrease in power consumption with the use of second and higher order modes exceeds 33% for a disk-like low aspect ratio self-propelling oblate spheroid. Moreover, we perform comparisons between blowing and suction and tangential surface velocity based boundary deformation propulsion mechanisms. Below an aspect ratio of 0.56 we find blowing and suction mechanism to be more efficient for self-propulsion of an oblate spheroid. In contrast, for a self-propelling pro-late spherical micro-swimmer, we show that the tangential surface tread milling consumes less power irrespective of the aspect ratio.

Drag Reduction

Surface Mass Transpiration

Bluff Body Flows

Hydrodynamic Drags

Towing

Self-propulsion

Suction

Mechanical Engineering

Development of a New Hydroponic Nutrient Management Strategy and a Tool to Assess Microclimate Conditions in Indoor Leafy Green Production

Papio, Giovanni A.

January 2021

No description available.

Horticulture

hydroponics

controlled environment agriculture

indoor farming

pH

nutrient solution

tipburn

transpiration

Soil Management Strategies to Establish Vegetation and Groundwater Recharge when Restoring Gravel Pits

Palmqvist Larsson, Karin

January 2003

The removal of vegetation and overburden changes the naturalwater purifying processes and thus decreases the groundwaterprotection in gravel pit areas. The sand and gravel depositsusedfor aggregate extraction in Sweden are also often valuablefor extraction of groundwater as a drinking water resource. TheSwedish legislation requires that gravel pits be restored afterthe cessation of extraction, the aim being to reestablishvegetation and to reinstate groundwater purifyingprocesses. The objective of this study was to improve our understandingof the processes governing groundwater protection andvegetation establishment so that these could be applied toimproving restoration methods for reestablishing naturalgroundwater protection. The focus was on the importance of soilphysical properties of the topsoil for vegetation establishmentand groundwater recharge. Actual field methods for restoration were reviewed.Conflicts between aggregate extraction and groundwaterinterests were common. In many cases the actual restorationcarried out differed from pre-planned specifications in permitdocumentation. Commonly available substrates that might be used forrestoration of gravel pits were investigated. The soils weredescribed as regards texture, organic content, porosity, waterretention and hydraulic conductivity. The way in which acombination of the water retention characteristic and theunsaturated conductivity influenced the behaviour of thesoil-plant-atmosphere system was demonstrated using aprocess-orientated simulation model. Plants with well-developedaboveground characteristics and shallow roots in particularexerted the highest requirements on the soil physicalproperties. Key words:groundwater protection, soil physicalproperties, CoupModel, unsaturated conductivity, waterretention, transpiration, soil evaporation

groundwater protection

soil physical properties

CoupModel

unsaturated conductivity

water retention

transpiration

soil evaporation