A vortex sheet based analytical model of the curled wake behind yawed wind turbines

Motivated by the need for compact descriptions of the evolution of non-classical wakes behind yawed wind turbines, we develop an analytical model to predict the shape of curled wakes. Interest in such modelling arises due to the potential of wake steering as a strategy for mitigating power reduction and unsteady loading of downstream turbines in wind farms. We first estimate the distribution of the shed vorticity at the wake edge due to both yaw offset and rotating blades. By considering the wake edge as an ideally thin vortex sheet, we describe its evolution in time moving with the flow. Vortex sheet equations are solved using a power series expansion method, and an approximate solution for the wake shape is obtained. The vortex sheet time evolution is then mapped into a spatial evolution by using a convection velocity. Apart from the wake shape, the lateral deflection of the wake including ground effects is modelled. Our results show that there exists a universal solution for the shape of curled wakes if suitable dimensionless variables are employed. For the case of turbulent boundary layer inflow, the decay of vortex sheet circulation due to turbulent diffusion is included. Finally, we modify the Gaussian wake model by incorporating the predicted shape and deflection of the curled wake, so that we can calculate the wake profiles behind yawed turbines. Model predictions are validated against large-eddy simulations and laboratory experiments for turbines with various operating conditions.

Multi-dimensional leaf phenotypes reflect root system genotype in grafted grapevine over the growing season

Background Modern biological approaches generate volumes of multi-dimensional data, offering unprecedented opportunities to address biological questions previously beyond reach owing to small or subtle effects. A fundamental question in plant biology is the extent to which below-ground activity in the root system influences above-ground phenotypes expressed in the shoot system. Grafting, an ancient horticultural practice that fuses the root system of one individual (the rootstock) with the shoot system of a second, genetically distinct individual (the scion), is a powerful experimental system to understand below-ground effects on above-ground phenotypes. Previous studies on grafted grapevines have detected rootstock influence on scion phenotypes including physiology and berry chemistry. However, the extent of the rootstock's influence on leaves, the photosynthetic engines of the vine, and how those effects change over the course of a growing season, are still largely unknown. Results Here, we investigate associations between rootstock genotype and shoot system phenotypes using 5 multi-dimensional leaf phenotyping modalities measured in a common grafted scion: ionomics, metabolomics, transcriptomics, morphometrics, and physiology. Rootstock influence is ubiquitous but subtle across modalities, with the strongest signature of rootstock observed in the leaf ionome. Moreover, we find that the extent of rootstock influence on scion phenotypes and patterns of phenomic covariation are highly dynamic across the season. Conclusions These findings substantially expand previously identified patterns to demonstrate that rootstock influence on scion phenotypes is complex and dynamic and underscore that broad understanding necessitates volumes of multi-dimensional data previously unmet.

Ground Effect on Current Energy Harvesting From a Freely-Oscillating Circular Cylinder at Low Reynolds Number

This paper investigates the potential of current energy harvesting from a freely-oscillating circular cylinder, with a focus on near-ground effects. Energy can be harvested by converting the oscillatory motion of a cylinder excited by water current into electricity. The boundary shear layer, created by the ground surface, interacts with the cylinder vortices and consequently affects the force behavior and power harvesting performance. The problem is simulated in a two-dimensional turbulent flow, using the Finite Volume (FV) solver and the dynamic motion module, inherited in OpenFOAM. Ground effects on the power generation capacity of an oscillating cylinder operating in river current velocity at Reynolds number of 3 × 104 are studied at varying depths. Vortex-induced vibration is studied to observe the ground boundary layer influence on the structural response, vortex structure, hydrodynamic forces, and gained power. The results shed physical insight into the understanding of the flow behavior of the oscillating cylinder near the ground. Simulations show that the ground effect appears when the distance between the cylinder and the ground is less than three times the cylinder’s diameter. Decreasing the gap distance between the cylinder and the ground suppresses the vortices behind the oscillating cylinder, causing an increase in the harvested energy. Further, the optimal-power harvesting distance between the ground and the freely-oscillating cylinder is two and half times the cylinder’s diameter, because of the high oscillating frequency, causing higher power relative to shorter distances.

Flash Flood Events along the West Mediterranean Coasts: Inundations of Urbanized Areas Conditioned by Anthropic Impacts

Flash floods represent one of the natural hazards that causes the greatest number of victims in the Mediterranean area. These processes occur by short and intense rainfall affecting limited areas of a few square kilometers, with rapid hydrological responses. Among the causes of the flood frequency increase in the last decades are the effects of the urban expansion in areas of fluvial pertinence and climatic change, namely the interaction between anthropogenic landforms and hydro-geomorphological dynamics. In this paper the authors show a comparison between flood events with very similar weather-hydrological characteristics and the ground effects occurred in coastal areas of three regions located at the top of a triangle in the Ligurian Sea, namely Liguria, Tuscany and Sardinia. With respect to the meteorological-hydrological hazard, it should be noted that the events analyzed occurred during autumn, in the conditions of a storm system triggered by cyclogenesis on the Genoa Gulf or by the extra-tropical cyclone Cleopatra. The “flash floods” damage recorded in the inhabited areas is due to the vulnerability of the elements at risk in the fluvio-coastal plains examined. There are numerous anthropogenic forcings that have influenced the hydro-geomorphological dynamics and that have led to an increase in risk conditions.

Gestalt Theory’s Less Known Studies: Memory

This article is a sequel to “Gestalt Theory: Its Past, its Stranding, and its Future..”. It focuses on what Gestalt theory proposed and produced within the area of memory, which unfortunately are almost unknown. It is typically believed that Gestalt theory is a theory about perception only. This, however, is not true. The aim of this article is to bring to daylight the conceptual and empirical contributions of Gestalt theory within the field of memory. The first part of the article discusses some critical proposals about memory processes in Kurt Koffka’s Principles of Gestalt (1936) book. These involve Koffka’s proposal about the involvement and effects of memory processes in the perception of successive Gestalts; a discussion of the similarities and differences between percepts and memory traces; Koffka’s reference to research suggesting that memory traces are dynamic such that depending on their Prägnanz they will or will not change during storage; that the type of change can even be predicted in some cases. The article will then review one of the most powerful empirical studies on memory within a Gestalt framework, i. e., Hedwig von Restorff’s 1933 dissertation demonstrating how figure-ground effects are at play not only in perception but also in memory. In the final part of this article, I will present Erich Goldmeier’s very original and interesting memory work, which seemed utterly ignored by mainstream cognitive psychology. Keywords: Gestalt theory, figure-ground, Prägnanz & dynamic memory traces, Kurt Koffka, Hedwig von Restorff, Erich Goldmeier

Analysis of a database of landslides triggered by the 2016 Central Italy seismic sequence

<p>The seismic sequence that struck Central Italy in 2016 was characterized by three main shocks respectively occurred on August 24<sup>th</sup> Mw 6.0; October 26<sup>th</sup> Mw5.9 and October 30<sup>th</sup> Mw 6.5. The seismic sequence caused several ground effects over a large area of ​​the central Apennine mountain range, mainly affecting transportation routes.</p><p>In the aftermath of the sequence, several research groups mapped around 820 landslides involving road cuts in rock and fill slopes over an area of about 2000 km<sup>2</sup> (GEER,ISPRA, C.E.R.I. by Roma La Sapienza). These data are summarized in the CEDIT catalog by Martino et al., (2017), where almost 150, 250 and 420 instability phenomena were respectively triggered by each mainshock. Further updates were carried out by the Authors in the framework of the Reluis projects of the Department of Civil Protection. In particular, other 550 phenomena were mapped by interpretation of aero photos provided by google-earth. For some of the largest ones, field surveys were carried out for mechanical, structural, and geometrical characterization.</p><p>The dataset distribution was analyzed with geological, geomorphological, and seismic parameters, such as lithology, fault distance, landslide run-out, estimates of mobilized volumes, distance from the epicenter, PGA, and damages.</p><p>The triggered events are mainly characterized by Category I of Keefer (1984) classification, namely rockfalls and rockslides. The maximum triggering distance resulted as high as 50 km far from the epicenter. The most affected areas are characterized by ridge crests or flanks of valleys in carbonate rocks.</p><p>This study permitted to highlight the most relevant parameters for the assessment of earthquake-triggered susceptibility for the study area and identify some meaningful and critical case studies for the future development of the research.</p><p> </p>