The Physiological Principle of Minimum Work: I. The Vascular System and the Cost of Blood Volume.
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This article is published in Proceedings of the National Academy of Sciences of the United States of America.The article was published on 1926-03-01 and is currently open access. It has received 1820 citations till now. The article focuses on the topics: Blood volume.read more
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Recent developments on relationships between the equivalent permeability and fractal dimension of two-dimensional rock fracture networks
TL;DR: In this article, the fractal properties of rock fractures and fracture networks and their correlations with the permeability of DFNs are reviewed, and the simplifications used in each model are extensively discussed.
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Do Vascular Networks Branch Optimally or Randomly across Spatial Scales
TL;DR: It is found that material-cost optimizations are the strongest predictor of vascular branching in the human head and torso, whereas locally or intermediately constrained random branching is comparable to material- cost optimizations for the mouse lung.
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Development of Human Respiratory Airway Models: A Review.
Kaveh Ahookhosh,O. Pourmehran,Habib Aminfar,Mousa Mohammadpourfard,Mousa Mohammadpourfard,Mohammad Mohsen Sarafraz,Hamed Hamishehkar +6 more
TL;DR: A comprehensive review about the development of different perspectives of the respiratory airway modeling over the past decades is provided, including their historical routes, strengths, and deficiencies.
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Haemodynamic analysis of the effect of different types of plaques in the left coronary artery
TL;DR: The analysis provides an insight into the distribution of plaque at the left bifurcation, and corresponding haemodynamic effects, thus, improving the understanding of atherosclerosis.
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Experimental and numerical investigation of fractal-tree-like heat exchanger manufactured by 3D printing
Gang Wang,Yu Gu,Luhaibo Zhao,Jin Xuan,Gaofeng Zeng,Gaofeng Zeng,Zhiyong Tang,Zhiyong Tang,Yuhan Sun,Yuhan Sun +9 more
TL;DR: In this paper, a 3D fractal-tree-like heat exchanger was designed and manufactured using 3D printing technology and its performance was evaluated from both thermal and hydrodynamic perspectives, the flow characteristics were investigated in detail.