366 research outputs found

    ASSESSMENT OF PHOTOVOLTAIC SURFACE TEXTURING ON TRANSMITTANCE EFFECTS AND GLINT/GLARE IMPACTS

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    ABSTRACT Standard glass and polymer covers on photovoltaic modules can partially reflect the sunlight causing glint and glare. Glint and glare from large photovoltaic installations can be significant and have the potential to create hazards for motorists, air-traffic controllers and pilots flying near installations. In this work, the reflectance, surface roughness and reflected solar beam spread were measured from various photovoltaic modules acquired from seven different manufacturers. The surface texturing of the PV modules varied from smooth to roughly textured. Correlations between the measured surface texturing (roughness parameters) and beam spread (subtended angle) were determined. These correlations were then used to assess surface texturing effects on transmittance and ocular impacts of glare from photovoltaic module covers. The results can be used to drive the designs for photovoltaic surface texturing to improve transmittance and minimize glint/glare. NOMENCLATURE E -Irradiance (W/m 2 ) DNI -Direct normal irradiance (1,000 W/m 2 is typical) i -Source angle of incidence (e.g. from the sun) (deg) -Reflectance of the PV module S a -2D average surface roughness (m) S q -2D RMS surface roughness (m RMS) S z -2D surface roughness peak-to-valley surface height (m) -Surface spatial period (mm) , -Reflected beam spread or source subtended angle (mrad) d p -Eye pupil diameter (~0.2 cm) -Eye transmittance (~0.5) f -Eye focal length (~1.7 cm

    Expression, purification, crystallization and preliminary crystallographic analysis of a putative Clostridium difficile surface protein Cwp19

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    Cwp19 is a putatively surface-located protein from Clostridium difficile. A recombinant N-terminal protein (residues 27–401) lacking the signal peptide and the C-terminal cell-wall-binding repeats (PFam04122) was crystallized using the sitting-drop vapour-diffusion method and diffracted to 2 Å resolution

    Estimating the long-term impact of a prophylactic human papillomavirus 16/18 vaccine on the burden of cervical cancer in the UK

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    To predict the public health impact on cervical disease by introducing human papillomavirus (HPV) vaccination in the United Kingdom, we developed a mathematical model that can be used to reflect the impact of vaccination in different countries with existing screening programmes. Its use is discussed in the context of the United Kingdom. The model was calibrated with published data. The impact of vaccination on cervical cancer and deaths, precancerous lesions and screening outcomes were estimated for a vaccinated cohort of 12-year-old girls, among which it is estimated that there would be a reduction of 66% in the prevalence of high-grade precancerous lesions and a 76% reduction in cervical cancer deaths. Estimates for various other measures of the population effects of vaccination are also presented. We concluded that it is feasible to forecast the potential effects of HPV vaccination in the context of an existing national screening programme. Results suggest a sizable reduction in the incidence of cervical cancer and related deaths. Areas for future research include investigation of the beneficial effects of HPV vaccination on infection transmission and epidemic dynamics, as well as HPV-related neoplasms in other sites

    WATER2006-20008 DEVELOPMENT OF A TECHNOLOGY ROADMAP FOR THE ENERGY AND WATER NEXUS

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    INTRODUCTION Energy and water are critical resources that are inextricably and reciprocally linked. The production of energy requires large volumes of water, and the treatment and distribution of water depends upon readily available, low-cost energy. For example, electricity production from thermoelectric power plants can use ~140,000 million gallons of water per day for cooling-accounting for 39% of all freshwater withdrawals in the nation, second only to agriculture in the United State
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