DesaLink:solar powered desalination of brackish groundwater giving high output and high recovery

Desalination of groundwater is essential in many arid areas that are far from both seawater and fresh water resources. The ideal groundwater desalination system should operate using a sustainable energy source and provide high water output per land area and cost. To avoid discharging voluminous brine, it should also provide high recovery. To achieve these aims, we have designed DesaLink, a novel approach to linking the solar Rankine cycle to reverse osmosis (RO). To achieve high recovery without the need for multiple RO stages, DesaLink adopts a batch mode of operation. It is suited to use with a variety of solar thermal collectors including linear Fresnel reflectors (LFR). For example, using a LFR occupying 1,000m of land and providing steam at 200°C and 15.5 bar, DesaLink is predicted to provide 350m of fresh water per day at a recovery ratio of 0.7, when fed with brackish groundwater containing 5,000ppm of sodium chloride. Here, we report preliminary experiments to assess the feasibility of the concept. We study the effects of longitudinal dispersion, concentration polarisation and describe a pilot experiment to demonstrate the batch process using a materials testing machine. In addition, we demonstrate a prototype of DesaLink running from compressed air to simulate steam.

An interdisciplinary approach to designing and evaluating a hybrid solar-biomass power plant

Purpose: Energy security is a major concern for India and many rural areas remain un-electrified. Thus, innovations in sustainable technologies to provide energy services are required. Biomass and solar energy in particular are resources that are widely available and underutilised in India. This paper aims to provide an overview of a methodology that was developed for designing and assessing the feasibility of a hybrid solar-biomass power plant in Gujarat. Design/methodology/approach: The methodology described is a combination of engineering and business management studies used to evaluate and design solar thermal collectors for specific applications and locations. For the scenario of a hybrid plant, the methodology involved: the analytical hierarchy process, for solar thermal technology selection; a cost-exergy approach, for design optimisation; quality function deployment, for designing and evaluating a novel collector - termed the elevation linear Fresnel reflector (ELFR); and case study simulations, for analysing alternative hybrid plant configurations. Findings: The paper recommended that for a hybrid plant in Gujarat, a linear Fresnel reflector of 14,000 m2 aperture is integrated with a 3 tonne per hour biomass boiler, generating 815 MWh per annum of electricity for nearby villages and 12,450 tonnes of ice per annum for local fisheries and food industries. However, at the expense of a 0.3 ¢/kWh increase in levelised energy costs, the ELFR can increase savings of biomass (100 t/a) and land (9 ha/a). Research limitations/implications: The research reviewed in this paper is primarily theoretical and further work will need to be undertaken to specify plant details such as piping layout, pump sizing and structure, and assess plant performance during real operational conditions. Originality/value: The paper considers the methodology adopted proved to be a powerful tool for integrating technology selection, optimisation, design and evaluation and promotes interdisciplinary methods for improving sustainable engineering design and energy management. © Emerald Group Publishing Limited.

Intracavity generation of 610nm light by periodically poled near-stoichiometric lithium tantalate

Intracavity frequency doubling of an optically pumped GaInNAs semiconductor disk laser by a periodically poled near-stoichiometric lithium tantalate crystal has been investigated. Stable second-harmonic generation at 610nm has been achieved with an output power of 730mW, limited only by the spectral acceptance range and Fresnel losses of the crystal. Spectral tuning of 8nm was realised with a Fabry-Pérot etalon. © The Institution of Engineering and Technology.

Refractometry Studies of the Optical Properties of Polymer Films and the Development of Polymer Coated Refractive Index Sensors

Sensors for real-time monitoring of environmental contaminants are essential for protecting ecosystems and human health. Refractive index sensing is a non-selective technique that can be used to measure almost any analyte. Miniaturized refractive index sensors, such as silicon-on-insulator (SOI) microring resonators are one possible platform, but require coatings selective to the analytes of interest. A homemade prism refractometer is reported and used to characterize the interactions between polymer films and liquid or vapour-phase analytes. A camera was used to capture both Fresnel reflection and total internal reflection within the prism. For thin-films (d = 10 μm - 100 μm), interference fringes were also observed. Fourier analysis of the interferogram allowed for simultaneous extraction of the average refractive index and film thickness with accuracies of ∆n = 1-7 ×10-4 and ∆d < 3-5%. The refractive indices of 29 common organic solvents as well as aqueous solutions of sodium chloride, sucrose, ethylene glycol, glycerol, and dimethylsulfoxide were measured at λ = 1550 nm. These measurements will be useful for future calibrations of near-infrared refractive index sensors. A mathematical model is presented, where the concentration of analyte adsorbed in a film can be calculated from the refractive index and thickness changes during uptake. This model can be used with Fickian diffusion models to measure the diffusion coefficients through the bulk film and at the film-substrate interface. The diffusion of water and other organic solvents into SU-8 epoxy was explored using refractometry and the diffusion coefficient of water into SU-8 is presented. Exposure of soft baked SU-8 films to acetone, acetonitrile and methanol resulted in rapid delamination. The diffusion of volatile organic compound (VOC) vapours into polydimethylsiloxane and polydimethyl-co-polydiphenylsiloxane polymers was also studied using refractometry. Diffusion and partition coefficients are reported for several analytes. As a model system, polydimethyl-co-diphenylsiloxane films were coated onto SOI microring resonators. After the development of data acquisition software, coated devices were exposed to VOCs and the refractive index response was assessed. More studies with other polymers are required to test the viability of this platform for environmental sensing applications.

Orthogonal chirp division multiplexing for coherent optical fiber communications

In this paper, we propose an orthogonal chirp division multiplexing (OCDM) technique for coherent optical communication. OCDM is the principle of orthogonally multiplexing a group of linear chirped waveforms for high-speed data communication, achieving the maximum spectral efficiency (SE) for chirp spread spectrum, in a similar way as the orthogonal frequency division multiplexing (OFDM) does for frequency division multiplexing. In the coherent optical (CO)-OCDM, Fresnel transform formulates the synthesis of the orthogonal chirps; discrete Fresnel transform (DFnT) realizes the CO-OCDM in the digital domain. As both the Fresnel and Fourier transforms are trigonometric transforms, the CO-OCDM can be easily integrated into the existing CO-OFDM systems. Analyses and numerical results are provided to investigate the transmission of CO-OCDM signals over optical fibers. Moreover, experiments of 36-Gbit/s CO-OCDM signal are carried out to validate the feasibility and confirm the analyses. It is shown that the CO-OCDM can effectively compensate the dispersion and is more resilient to fading and noise impairment than OFDM.

Efectos del terreno en la propagación electromagnética en entornos urbanos sobre la región andina, usando el modelo COST 231-Walfisch-Ikegami y herramientas de planificación basadas en GIS

El presente artículo hace parte del desarrollo de un algoritmo que considera la influencia del relieve en la propagación electromagnética para un entorno semi-urbano, trabajando en la banda de UHF (300MHz-3GHz) utilizada en los actuales y futuros sistemas de comunicación inalámbricos (i.e. 800-900MHz en sistemas DAMPS/US-TDMA/IS-136 y GSM). El modelo base, el COST231-Walfisch- Ikegami, empleado en la investigación,demostró beneficios, junto con los Sistemas de Información Geográfica (SIG) y las Herramientas de Planificación, para el desarrollo de los estudios de propagación, estimación de coberturas y análisis de los principales factores que afectan la planificación de un sistema móvil celular. Aquí se describen los conceptos básicos utilizados para el desarrollo del algoritmo aplicado, las consideraciones sobre las cuales se llevaron a cabolas campañas de medidas y el proceso de validación de resultados que comprueban la utilidad del algoritmo desarrollado para la predicción de Path Loss. El trabajo se basó en la fusión del modelo de propagación COST231-Walfisch-Ikegami con laHerramienta de Planificación Cell-View (fundamentada en el SIG ArcView) y la realización de mediciones en la ciudad de Bucaramanga con una unidad móvil de radiocomunicacióny control del espectro radioeléctrico de propiedad del Ministerio de Comunicaciones de Colombia, seccional Bucaramanga. El estudio llevado a cabo para la banda del sistema IS- 136, mostró resultados de simulación y validación que permiten corroborarlas aproximaciones empleadas.

Herramienta gráfica de modelado de redes inalámbricas basada en modelos de propagación de señales en interiores

El presente artículo describe el proceso de implementación de un modelo de predicción de la propagación de señales en interiores, basado en el modelo semiempírico de K. W. Cheung, J. H. M. Sau, y R. D. Murch,[1] donde se tienen en cuenta la atenuacióndebida a la distancia, el ángulo de incidencia sobre las paredes, laatenuación asociada a estas mismas y las zonas de Fresnel.Los datos del entorno a simular son tomados de un archivo DXF que debe seguir un formato establecido. Se obtienen del usuario la atenuación asociada a cada tipo de pared y la ubicacióndel punto de acceso. También se desarrolla un algoritmo desombreado que optimiza el tiempo de simulación debido a su sencillez. Finalmente se muestra la comparación de los resultados de la simulación y los datos obtenidos en la prueba de campo.

A novel Compound Elliptical-type Concentrator for parabolic primaries with tubular receiver

The Parabolic Trough (PT) is the most used concentrator in CSP (Concentrated Solar Power). However, this concentrator technology is facing a significant challenge to increase its overall efficiency and cost-effectiveness. Meanwhile, other low-cost solutions such as Fresnel concentrators are also being perceived as potentially attractive. In order to achieve the lower cost goal, new optical solutions can be considered, in parallel with improvements coming, for instance, through the use of new materials or manufacturing solutions. But conventional PTs can still be improved to yield, for instance, higher concentration values, a possible starting point for higher conversion efficiency. These new solutions, in turn, can also be useful for other technologies and applications (Fresnel Concentrators, Central Tower Receivers, etc.). However it is easier to develop and test these solutions in conjunction with parabolic primaries (continuum primary). And that is the topic of this paper: to present a new Compound Elliptical-type Concentrator for a parabolic primary with a tubular receiver. A comparison is made between this new concentrator and two other concentrators (a conventional PT concentrator and a XX SMS (Simultaneous Multiple Surface) concentrator), as well as a calculation of the total amount of collected energy (kW h) for a particular location, Faro (Portugal). The paper ends with a discussion of the results obtained, their impact and possible applications in the future.

Sul comportamento delle orbite di onde interne in biliardi di forma parabolica

Si studia il comportamento di particelle in un tipo particolare di biliardo dinamico, in cui le riflessioni sul bordo avvengono attraverso l’inversione dell’angolo che la traiettoria compie rispetto a una direzione verticale fissata, invece della solita normale alla curva à la Fresnel. L'interesse in questo argomento deriva dall'evidenza sperimentale di un comportamento simile nella propagazione di onde entro fluidi stratificati: questa tipologia di biliardo è quindi spesso detta biliardo di onde interne. Lo studio di questi oggetti, sebbene puramente matematico, può dare luogo a peculiari considerazioni fisiche ed applicative. Notevolmente, la frequente presenza di attrattori in tali modelli suggerisce che fenomeni di concentrazione delle onde interne dovuti a tale regola di riflessione potrebbero avere un ruolo in alcuni sistemi reali, come la circolazione oceanica. Dopo aver passato in rassegna alcuni elementi della teoria di Poincaré degli omeomorfismi del cerchio, e alcuni risultati specifici sui biliardi di onde interne, si studia il caso particolare di un biliardo di forma parabolica, tagliato da un segmento normale al suo asse di simmetria. In quest'ultimo contesto, si dimostrano alcuni risultati originali sul comportamento delle traiettorie.