Your search keyword '"Reinder Ronda"' showing total 11 results

1. Evaluation of the WRF Model to Simulate a High-Intensity Rainfall Event over Kampala, Uganda

Author

Yakob Umer, Janneke Ettema, Victor Jetten, Gert-Jan Steeneveld, and Reinder Ronda

Subjects

deep convection, high-intensity rainfall event, Kampala, parametrization combinations, TOPSIS, Uganda, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

Simulating high-intensity rainfall events that trigger local floods using a Numerical Weather Prediction model is challenging as rain-bearing systems are highly complex and localized. In this study, we analyze the performance of the Weather Research and Forecasting (WRF) model’s capability in simulating a high-intensity rainfall event using a variety of parameterization combinations over the Kampala catchment, Uganda. The study uses the high-intensity rainfall event that caused the local flood hazard on 25 June 2012 as a case study. The model capability to simulate the high-intensity rainfall event is performed for 24 simulations with a different combination of eight microphysics (MP), four cumulus (CP), and three planetary boundary layer (PBL) schemes. The model results are evaluated in terms of the total 24-h rainfall amount and its temporal and spatial distributions over the Kampala catchment using the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) analysis. Rainfall observations from two gauging stations and the CHIRPS satellite product served as benchmark. Based on the TOPSIS analysis, we find that the most successful combination consists of complex microphysics such as the Morrison 2-moment scheme combined with Grell-Freitas (GF) and ACM2 PBL with a good TOPSIS score. However, the WRF performance to simulate a high-intensity rainfall event that has triggered the local flood in parts of the catchment seems weak (i.e., 0.5, where the ideal score is 1). Although there is high spatial variability of the event with the high-intensity rainfall event triggering the localized floods simulated only in a few pockets of the catchment, it is remarkable to see that WRF is capable of producing this kind of event in the neighborhood of Kampala. This study confirms that the capability of the WRF model in producing high-intensity tropical rain events depends on the proper choice of parametrization combinations.

Published

2021

2. Quantifying the Effect of Different Urban Planning Strategies on Heat Stress for Current and Future Climates in the Agglomeration of The Hague (The Netherlands)

Author

Sytse Koopmans, Reinder Ronda, Gert-Jan Steeneveld, Albert A.M. Holtslag, and Albert M.G. Klein Tank

Subjects

urban heat island, urban planning, heat resilience, climate scenarios, Meteorology. Climatology, QC851-999

Abstract

In the Netherlands, there will be an urgent need for additional housing by the year 2040, which mainly has to be realized within the existing built environment rather than in the spatial extension of cities. In this data-driven study, we investigated the effects of different urban planning strategies on heat stress for the current climate and future climate scenarios (year 2050) for the urban agglomeration of The Hague. Heat stress is here expressed as the number of days exceeding minimum temperatures of 20 °C in a year. Thereto, we applied a diagnostic equation to determine the daily maximum urban heat island based on routine meteorological observations and straightforward urban morphological properties including the sky-view factor and the vegetation fraction. Moreover, we utilized the Royal Netherlands Meteorological Institute’s (KNMI) climate scenarios to transform present-day meteorological hourly time series into the future time series. The urban planning strategies differ in replacing low- and mid-rise buildings with high-rise buildings (which reduces the sky-view factor), and constructing buildings on green areas (which reduces the vegetation fraction). We found that, in most cases, the vegetation fraction is a more critical parameter than the sky-view factor to minimize the extra heat stress incurred when densifying the neighbourhood. This means that an urban planning strategy consisting of high-rise buildings and preserved green areas is often the best solution. Still, climate change will have a larger impact on heat stress for the year 2050 than the imposed urban densification.

Published

2018

3. The set-up and evaluation of fine-scale data assimilation for the urban climate of Amsterdam

Author

Sytse Koopmans, Ronald van Haren, Natalie Theeuwes, Reinder Ronda, Remko Uijlenhoet, Albert A. M. Holtslag, and Gert‐Jan Steeneveld

Subjects

Meteorologie en Luchtkwaliteit, Atmospheric Science, WIMEK, Meteorology, Meteorology and Air Quality, Life Science, Meteorologie

Abstract

Ongoing urbanization highlights the need for a better understanding and high resolution modelling of the urban climate. In this study, we combine rural observations by WMO surface stations, weather radar data and urban crowd-sourced observations with very fine-scale modelling efforts for Amsterdam, The Netherlands. As a model, we use the Weather Research and Forecasting (WRF) mesoscale model with 3D variational data assimilation at a 100-m resolution in the innermost model domain. In order to enable the assimilation of observations within the urban canopy, we develop a scheme to reduce urban temperature biases by adjusting urban fabric temperatures. The scheme is tested against independent urban observations for the summer month of July 2014 and specifically for a hot period and an extreme precipitation event. We find data assimilation reduces biases in temperature and wind speed. Within the city, the most significant improvement is the reduction of negative temperature biases during clear nights, which implies a better prediction of the Urban Heat Island (UHI). Concerning precipitation, the fractional skill score improves incrementally when additional observations are assimilated, and the largest impact is seen from the assimilation of weather radar observations.

Published

2023

4. Midday Boundary-Layer Collapse in the Altiplano Desert : The Combined Effect of Advection and Subsidence

Author

Francisca Aguirre Correa, Jordi Vilà-Guerau de Arellano, Reinder Ronda, Felipe Lobos Roco, Francisco Suárez, and Oscar Hartogensis

Subjects

Meteorologie en Luchtkwaliteit, Atmospheric Science, Boundary-layer collapse, WIMEK, Meteorology, Altiplano, Meteorology and Air Quality, WRF, Advection, Meteorologie, CLASS

Abstract

Observations in the Altiplano region of the Atacama Desert show that the atmospheric boundary layer (ABL) suddenly collapses at noon. This rapid decrease occurs simultaneously to the entrance of a thermally driven, regional flow that causes a rise in wind speed and a marked temperature decrease. We identify the main drivers that cause the observed ABL collapse by using a land–atmosphere model. The free atmosphere lapse rate and regional forcings, such as advection of mass and cold air as well as subsidence, are first estimated by combining observations from a comprehensive field campaign and a regional model. Then, to disentangle the ABL collapse, we perform a suite of numerical experiments with increasing level of complexity: from only considering local land–atmosphere interactions, to systematically including the regional contributions of mass advection, cold air advection, and subsidence. Our results show that non-local processes related to the arrival of the regional flow are the main factors explaining the boundary-layer collapse. The advection of a shallower boundary layer ($$\approx -250$$ ≈ - 250 m h$$^{-1}$$ - 1 at noon) causes an immediate decrease in the ABL height (h) at midday. This occurs simultaneously with the arrival of a cold air mass, which reaches a strength of $$\approx -4$$ ≈ - 4 K h$$^{-1}$$ - 1 at 1400 LT. These two external forcings become dominant over entrainment and surface processes that warm the atmosphere and increase h. As a consequence, the ABL growth is capped during the afternoon. Finally, a wind divergence of $$\approx 8 \times 10^{-5}$$ ≈ 8 × 10 - 5 s$$^{-1}$$ - 1 contributes to the collapse by causing subsidence motions over the ABL from 1200 LT onward. Our findings show the relevance of treating large and small-scale processes as a continuum to be able to understand the ABL dynamics.

Published

2023

5. Combined effects of temperature and humidity on indoor VOCs pollution: Intercity comparison

Author

Shuguang Chen, Yu Zhan, Ming Sun, Chen Zhou, Xueyou Shen, Hongyu Chen, Meng Xia, and Cornelis Reinder Ronda

Subjects

Pollution, geography, Environmental Engineering, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Indoor air, media_common.quotation_subject, Geography, Planning and Development, Environmental engineering, Humidity, Building and Construction, 010501 environmental sciences, 01 natural sciences, Sink (geography), Human health, Indoor air quality, Environmental science, 0105 earth and related environmental sciences, Civil and Structural Engineering, media_common

Abstract

Indoor VOCs still remain at high levels in many areas, which may directly impact human health. In this study, hundreds of residential indoor air samples were collected in Xi'an and Hangzhou from April 2014 to November 2015. Indoor VOC pollution level of newly renovated residences was more serious than that of old residences (approximately 10–15 times). The mean indoor VOC level of newly renovated residences in Xi'an was 0.882 ± 1.922 mg/m 3 , similar to Hangzhou's levels (0.862 ± 1.394 mg/m 3 ). But part of the benzene homologues concentrations in Hangzhou were higher than those in Xi'an, and the exposure risk in Hangzhou could be 1.5 to 8 times that in Xi'an. This study aims to identify characteristics of indoor VOC pollution, quantitatively estimate the combined effects of temperature and humidity, and reveal sink mechanism associated with indoor VOCs. The results indicate that indoor VOC pollution in newly renovated residences is mainly affected by the combination of temperature and humidity as sink effect, especially for the components with large Henry's Law Constant. The results of this study also provide valuable guidance on indoor VOC pollution control, i.e., humidity control is a countermeasure to reduce potential indoor air pollution for people who live in humid areas.

Published

2017

6. Leuchtstoffe für aktive Displays: Neue Konzepte für flache Bildschirme erfordern speziell entwickelte Leuchtstoffe

Author

Claus Feldmann, Thomas Jüstel, and Cornelis Reinder Ronda

Abstract

Seit mehr als 50 Jahren werden Leuchtstoffe in Kathodenstrahlrohren zur Erzeugung von sichtbarem Licht eingesetzt. In den letzten Jahrzehnten sind die verwendeten Materialien standig verbessert worden, um die gestiegenen Anspruche an Auflosung, Helligkeit und Kontrast von Monitoren und Fernsehern zu erfullen. Gegenwartig werden verschiedene neue Konzepte verfolgt, um flache Bildschirme mit geringer Bautiefe zu realisieren. Einige dieser Technologien, zum Beispiel die Plasmabildschirme, benotigen ebenfalls Leuchtstoffe. Da sich die Anregungsbedingungen von denen einer klassischen Kathodenstrahlrohre deutlich unterscheiden, mussen jedoch neue Leuchtstoffe entwickelt werden, die an die speziellen Anforderungen optimal angepasst sind.

Published

2000

7. α-Fe2O3 Coatings on Y2O2S:Eu

Author

Michael Dr Bredol and Cornelis Reinder Ronda

Subjects

Precipitation (chemistry), Thermal decomposition, Inorganic chemistry, Analytical chemistry, Order (ring theory), chemistry.chemical_element, Phosphor, Decomposition, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Biomaterials, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Ternary compound, Europium, Luminescence

Abstract

Of the three phosphors used in cathode-ray tubes (CRT), the blue and the red emitting phosphors used are pigmented. Pigmentation is used in order to suppress reflection of ambient light, aiming at contrast improvement. The pigments applied absorb daylight in those spectral regions where the phosphor does not emit. For the blue emitting phosphor, CoAl{sub 2}O{sub 4} is used as pigment; for the red emitting phosphor, {alpha}-Fe{sub 2}O{sub 3} is applied. Two methods are presented for applying {alpha}-Fe{sub 2}O{sub 3} coatings to Y{sub 2}O{sub 2}S:Eu phosphor grains. In the first method {alpha}-FeO(OH) is precipitated homogeneously on the phosphor, followed by thermal decomposition into {alpha}-Fe{sub 2}O{sub 3}. The second method consists of precipitation of FeSO{sub 4} on the phosphor, followed by thermal decomposition of FeSO{sub 4} into {alpha}-Fe{sub 2}O{sub 3}.

Published

1995

8. Leuchtstoffe für Kathodenstrahlröhren

Author

Michael Bredol, Ulrich Kynast, and Cornelis Reinder Ronda

Subjects

General Chemistry

Abstract

Mit den Leuchtstoffen ZnS:Cu, Au, Al (grun), ZnS:Ag (blau) und Y2O2S:Eu (rot) stehen nach uber vierzigjahriger Entwicklung fur konventionelle Farbfernseh- und Computer-monitor-Anwendungen optimierte Materialien zur Verfugung, deren Lumineszenzeigenschaften kaum Wunsche offen lassen. Verbessert werden konnte allenfalls das Sattigungsverhalten des grunen Leuchtstoffs, wobei allerdings auch die Elektronenkanonen effizienter werden musten. Durch den Ersatz Cadmium-haltiger Zinksulfide ist ein weiterer Schritt in Richtung Umweltvertraglichkeit gelungen. Daher liegen die Herausforderungen zur Zeit eher im Bereich der Pulvertechnologie, z. B. bei der Kontrolle der Morphologie (Korngrose) und bei kontrasterhohenden Masnahmen (Ummantelungen/Pigmentierungen) zur weiteren Verbesserung von Auflosungsvermogen, Brillanz und optimaler Anpassung an die Produktionsbedingungen. Bei den Projektionsfernsehrohren konnten das Alterungsverhalten und die Sattigung des blauen Phosphors, ZnS:Ag, noch verbessert werden; nach Alternativen wird gesucht. Neue Displaykonzepte befinden sich noch im Entwicklungsstadium; die zugehorigen Leuchtstoffspezifikationen sind zum Teil noch nicht bekannt. Bei ihnen wird in Zukunft vermutlich ein Schwerpunkt der industriellen Lumineszenz- bzw. Leuchtstoff-Forschung liegen.

Published

1994

9. Designing Luminescent Materials

Author

Ulrich Kynast, Michael Dr Bredol, and Cornelis Reinder Ronda

Subjects

chemistry.chemical_classification, Photoluminescence, Materials science, Mechanical Engineering, Uv absorption, Ionic bonding, Phosphor, Nanotechnology, Quantum size, chemistry, Mechanics of Materials, General Materials Science, Small particles, Luminescence, Inorganic compound

Abstract

Over the last fifty years, there has been a large research effort in the field of luminescent materials. Such materials find application in, for example, fluorescent lamps, T.V. sets or X-ray detectors. The phosphors applied in such devices are generally inorganic solid-state materials, with an ionic lattice. Research has pushed the luminescence properties of these materials to the physical limits and probably no new classes of these conventional materials, performing equally well or even better, are likely to be found. As a result, the number of conventional phosphor materi- als is not expected to grow further. This has resulted in a change in research strategy. Instead of looking for new 'con- ventional' phosphor materials, research has concentrated on controlling the materials properties of phosphor systems, such as their hygroscopic nature or morphology. In recent years, new inpetus has been given to research dealing with luminescent materials through the application of organic and inorganic cage compounds, the use of organic ligands leading to extremely strong UV absorption, or very small particles exhibiting quantum size effects."] In this paper, we outline some of the activities within Philips research, dealing with these topics.

Published

1991

10. Regional measurement and modelling of carbon balances

Author

Reinder Ronda, Philippe Ciais, Franco Miglietta, and A. J. Dolman

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, chemistry, 010604 marine biology & hydrobiology, Environmental engineering, Environmental science, chemistry.chemical_element, Greenhouse effect, 01 natural sciences, Carbon, 0105 earth and related environmental sciences

Published

2004

11. Near-infrared luminescent nanomaterials for in-vivo optical imaging

Author

Helga Hummel, Peter K. Bachmann, Volker Weiler, Cornelis Reinder Ronda, Jacqueline Merikhi, and Thomas Juestel

Subjects

Materials science, Bioconjugation, Near-infrared spectroscopy, Nanoparticle, Nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Nanomaterials, chemistry.chemical_compound, Optical imaging, chemistry, Cyanine, Luminescence, Preclinical imaging

Abstract

Optical imaging using unspecific contrast agents as well as targeted and disease-specific agents play a vital role in preclinical research. Moreover, optical imaging is on the verge of establishing itself as a clinically relevant imaging modality. Also in-vitro diagnostical procedures rely to a large degree on optical labels to report disease-specific events. Materials that fulfill the basic requirements of this market are being used today, with cyanine dyes and semiconductor quantum dots being excellent examples. Other materials are being tested in laboratories throughout the world. Design rules suitable to develop new optical labels for in-vivo near-infrared optical imaging procedures have been formulated by us, and we have developed synthesis routes that lead to nano particles with small diameter, narrow size distribution, high quantum yield, and with stable surfaces required for bioconjugation to disease-specific ligands.

Published

2008