324 resultados para MICROONDAS
Resumo:
The microwave oven became a common domestic equipment, due mainly to the short time spent to heat foods. One of the most interesting characteristics of the microwave oven is the selective heating. Different from the conventional oven, where the heating is not selective, the heating by microwave depends on the chemical nature of the matter. Many Students of Chemistry have no knowledge of the principles involved in this selective heating, in spite of the daily microwave oven use. The heating by microwave is feasible for chemistry courses. In discussions about the microwave absorption by the matter it is possible to explore chemical properties like: heat capacity, chemical bound, molecular structure, dipole moments, polarization and dielectric constant. This paper presents the basic principles involved in the microwave heating. It is proposed a simple and inexpensive experiment that could be developed in general chemistry courses, to illustrate the relationship between heating and the chemical properties of some solvents. Experiments to check the power of the microwave oven are also proposed.
Resumo:
The application of microwave heating to organic synthesis is presented in a concise manner. Issues such as the history of the microwave oven, dielectric heating, reactions techniques (dry reactions, MORE chemistry), domestic ovens, microwave reactors, microwave effect and control of selectivities are discussed. Selected examples from the literature showed faster reactions, improved yields, less thermal degradations and cleaner reactions.
Resumo:
The efficiency of a new procedure for the digestion of natural waters, based on a microwave-activated photochemical reactor was evaluated in this work. Fluorescence spectra showed a 99% reduction in the emission of a 40 mg L-1 humic acid solution after 15 min of UV irradiation. In the presence of H2O2, only 3 min were necessary to accomplish a reduction of almost 100% in the emission and 6 min to reduce the concentration of dissolved organic carbon by 95%. The copper recovery from synthetic samples containing commercial humic acid, from soil suspensions, as well as from natural waters varied between 91.5 and 106.6%. The digestion of dissolved and unfiltered samples was successfully accomplished in 6 and 12 min, respectively. No contaminations or sample losses were observed. Results of copper speciation in natural waters showed that this metal is predominantly bound to natural ligands. Only 3-6% of the total recoverable copper is present in the labile form.
Resumo:
Theoretical and practical aspects of the use of microwave-assisted strategies in chemistry are introduced for students using simple and safe experiments employing a domestic oven. Three procedures are proposed for evaluating the distribution of microwave radiation inside the microwave oven cavity: (1) variation of the volume of marshmallows; (2) drying of filter paper wetted with Co(II) solution, and (3) variation of water temperature, after microwave-assisted heating. These experiments establish the position with the highest incidence of microwave radiation in the oven cavity, which was chosen for the synthesis of salicylic acid acetate. This synthesis was performed in 5 min of heating and the yield was around 85%. All experiments can be carried out in a 4 h lab-session using low-cost instrumentation.
Resumo:
Solid-phase organic synthesis (SPOS) has been considered the main strategy for the construction of combinatorial libraries, because its simplicity leads to faster synthetic procedures. In addition to that, a series of reports in the specialized literature show great advantages in the use of microwave activation, when compared to classical heating, for instance: shorter reaction times, in some cases from several hours to a few minutes, increase of selectivity and product yields, energy economy and reduction and/or elimination of solvent. This review describes the use of microwave ovens/reactors in solid phase organic synthesis, describing the advantages, equipment and reactions using both techniques.
Resumo:
In this work a closed-vessel microwave-assisted acid decomposition procedure for clays was developed. Aluminum, Ca, Fe, K, Mg, Na, Si, and Ti were determined in clay digestates by inductively coupled plasma optical emission spectrometry. The most critical parameter for total decomposition of clays was the composition of the reagent mixture. The applied power and the heating time exerted a less critical influence. Best decomposition conditions were attained using a reagent mixture containing 4 mL aqua regia plus 3 mL HF and the heating program was implemented in 12 min. The accuracy of the results was demonstrated using two standard reference materials and a paired t-test showed a good agreement between determined and certified values at a 95% confidence level.
Resumo:
The use of factorial design was evaluated for optimization of focused-microwave-assisted digestion of bean samples. Calcium, Fe, Mg, Mn and Zn percentual recoveries were determined in digestates after focused-microwave-assisted digestion according to factorial design procedures. A cavity microwave digestion was carried out to certify the elemental compositions obtained. The accuracy was checked using a standard reference material, the NIST SRM 8433 - Corn Bran. Results are in agreement with certified values at the 95% confidence limit when the Student t-test was used. Volumes of nitric and sulfuric acid, temperature, and the interplay between HNO3 and H2SO4 initial volumes were significant variables according to P-values in the analysis of variance (ANOVA).
Resumo:
The microwave oven became an important source of heating for many laboratory procedures including accelerating organic reactions. Reactions that require long reflux times can sometimes be carried out in a few hours or minutes in a conventional microwave oven. However, longer reflux times can be troublesome since domestic microwave ovens are not prepared for these harsh conditions. This technical note presents our finding on heterogeneous catalysis transesterification reactions between b-keto-esters and carbohydrate derivatives under heating or microwave irradiation using an adapted domestic microwave oven.
Resumo:
The applicability of the recently proposed procedure based on gradual sample addition to microwave-assisted pre-heated concentrated acid is limited by the sample viscosity. In this work, lubricating oil samples with high viscosity were encapsulated and manually added to the microwave-assisted pre-heated concentrated digestion mixture. The procedure was applied for determination of Al, Ca, Cr, Cu, Fe, Mg, Ni, P, Pb, Si, Sn, Sr, V, W, and Zn in lubricating oil by inductively coupled plasma optical emission spectrometry (ICP OES). Determined and certified values for Ca, Mg, P, and Zn in lubricating oil were in agreement at a 95% confidence level.
Resumo:
The effect of microwave (MW) irradiation on the crystalline structure of two natural clays and one commercial clay, Montmorillonite K10, was analyzed comparing the X-ray diffraction, N2 isotherms, NMR-MAS of 27Al and 29Si spectra of the clays before and after MW irradiation. The preparation of dioxolane ketals of isatin was used to analyze the MW effect on the catalyst activation. The yields achieved using catalysts activated by MW irradiation were lower (2 to 5%) than the yields achieved using catalysts activated by heat in a conventional oven.
Resumo:
Microwave irradiation offers a clean, inexpensive, and convenient method of heating, which is an alternative way of introducing energy into chemical systems. In particular, applications of microwave irradiation technology for petroleum processing have been developed in the last twenty years. The main objective of this paper is to review the use of microwave irradiation technology as an alternative technique applied during petroleum refining and primary processing of petroleum fluids, presenting and discussing successful applications of this technology as a tool for petroleum emulsion separation and catalytic reactions normally found at hydrorefining plants.
Resumo:
No presente trabalho foi desenvolvido um método espectrofotométrico rápido, simples e seletivo para análise de ácido glicólico, o qual baseia-se na reação colorida entre o formaldeído liberado pelo ácido glicólico e o ácido cromotrópico, quando a reação é realizada em meio de ácido fosfórico concentrado e com aquecimento, utilizando para isso irradiação em forno de microondas doméstico para acelerar a reação. O composto corado formado apresenta um máximo de absorção a 570 nm, sendo necessários apenas 30 segundos de irradiação em forno de microondas (1100 Watts) para que a reação seja completa. A Lei de Beer é obedecida no intervalo de 0-2208 mg L-1. O método proposto foi aplicado na análise de amostras comerciais de ácido glicólico utilizadas em farmácias de manipulação no preparo de medicamentos de combate à acne, fornecendo bons resultados, com recobrimentos entre 97,0-101,4% e desvio padrão de 0,2-0,4%.
Resumo:
As reações sob aquecimento por microondas geralmente apresentam significativa redução no tempo de reação e elevados rendimentos. Portanto, o objetivo desse trabalho foi adaptar um forno de microondas doméstico de forma adequada e segura para realização de reações de transesterificação, e otimizar o processo de produção de biodiesel por microondas usando óleo de coco babaçu como matéria prima. Para este fim, foi usado um planejamento composto central no qual se variou o tempo de irradiação, concentração de KOH e razão óleo:metanol. Análises estatísticas foram feitas para avaliarem a significância do modelo usado. As condições experimentais ótimas foram: razão óleo:metanol, 8,59, concentração de KOH, 2,19%, tempo de irradiação, 70 segundos, dando rendimento de aproximadamente 100%.
Resumo:
Foram comparados, em termos de viscosidade, os efeitos de dois tipos de torração de cacau: convencional, em forno elétrico rotativo e por microondas, em protótipo de forno rotativo contínuo (2450MHz). O cacau foi torrado tanto em amêndoas inteiras quanto fragmentadas em "nibs" nos dois equipamentos. A variável do tratamento por microondas foi a densidade de potência aplicada às amêndoas inteiras (254,45 a 290,80 Wh/kg) e aos "nibs" (227,27 a 262,23 Wh/kg), com tempo de residência constante (10 min). A variável do tratamento convencional foi o tempo de torração das amêndoas (40 a 44 min) e dos "nibs" (34 a 38 min), com temperatura na camisa do forno constante (150°C). A viscosidade foi medida em reômetro Brookfield (mod. RV-DVIII) a 40°C. A viscosidade plástica das amostras torradas em microondas foi, em geral, menor que a daquelas torradas em forno elétrico rotativo. As amostras torradas em fragmentos ("nibs") também apresentaram menor viscosidade em relação àquelas torradas em amêndoas inteiras em forno elétrico. Quando o tratamento foi por microondas, a viscosidade das amostras obtidas de amêndoas torradas inteiras foi menor que a das amostras torradas em "nibs". A análise sensorial realizada com três especialistas mostrou que o sabor das amostras torradas em microondas foi similar ao do "líquor" obtido da torração convencional, levando em consideração a redução de tempo deste novo processo.
Resumo:
O objetivo desse trabalho foi verificar a viabilidade do uso de aparelho de microondas para a determinação do teor de umidade de grãos de milho. Nesse estudo foram utilizadas amostras de milho com teor de umidade na faixa de 7,33 a 22,28%. Equações de regressão linear foram determinadas correlacionando-se os valores de percentagem de água retirada após secagem no microondas e o teor de umidade determinado pelo método de estufa a 105oC ± 3o C por 24 horas. O tempo de permanência do produto no aparelho de microondas foi fixado em 45 segundos. Nas condições em que o experimento foi realizado, o aparelho de microondas mostrou ser uma alternativa viável para a determinação de umidade de grãos de milho.
