Simplified Calculation and Validation of Water Infiltration Rate of Asphalt Pavement on Filled Subgrade

Infiltration estimation is made by tests such as concentric cylinders, which are prone to errors, such as the lateral movement under the ring. Several possibilities have been developed over the last decades to compensate these errors, which are based on physical, electronic, and mathematical principles. In this research, two approaches are proposed to measure the water infiltration rate in a silty loam soil by means of the mass values of a lysimeter weighing under rainfall conditions and different moisture contents. Based on the fact that with the lysimeter it is possible to determine acting soil flows very precisely, then with the help of mass conservation and assuming a downward vertical movement, 12 rain events were analyzed. In addition, it was possible to monitor the behavior of soil moisture and to establish the content at field capacity from the values of the weighing lysimeter, from which both approach are based. The infiltration rate of these events showed a variable rate at the beginning of the rainfall until reaching a maximum, to descend to a stable or basic rate. This basic infiltration rate was 1.49 ± 0.36 mm/h, and this is because soils with fine textures have reported low infiltration capacity. Four empirical or semi-empirical models of infiltration were calibrated with the values obtained with our approaches, showing a better fit with the Horton’s model.

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Patterns of water infiltration and soil degradation over a 120-yr chronosequence from forest to agriculture in western Kenya

Hydrology and Earth System Sciences Discussions ◽

10.5194/hessd-8-6993-2011 ◽

2011 ◽

Vol 8 (4) ◽

pp. 6993-7015 ◽

Cited By ~ 1

Author(s):

G. Nyberg ◽

A. Bargués Tobella ◽

J. Kinyangi ◽

U. Ilstedt

Keyword(s):

Bulk Density ◽

Soil Degradation ◽

Agricultural Land ◽

Infiltration Rate ◽

Water Infiltration ◽

Native Forest ◽

Western Kenya ◽

Soil C ◽

Soil C And N ◽

C And N

Abstract. Soil degradation is commonly reported in the tropics where forest is converted to agriculture. Much of the native forest in the highlands of western Kenya has been converted to agricultural land in order to feed the growing population, and more land is being cleared. In tropical Africa, this land use change results in progressive soil degradation, as the period of cultivation increases. Sites that were converted to agriculture at different times can be evaluated as a chronosequence; this can aid in our understanding of the processes at work, particularly those in the soil. Both levels and variation of infiltration, soil carbon and other parameters are influenced by management within agricultural systems, but they have rarely been well documented in East Africa. We constructed a chronosequence for an area of western Kenya, using two native forest sites and six fields that had been converted to agriculture for varying lengths of time. We assessed changes in infiltrability (the steady-state infiltration rate), soil C and N, bulk density, δ13C, and the proportion of macro- and microaggregates in soil along a 119 yr chronosequence of conversion from natural forest to agriculture. Infiltration, soil C and N, decreased rapidly after conversion, while bulk density increased. Median infiltration rates fell to about 15 % of the initial values in the forest and C and N values dropped to around 60 %, whilst the bulk density increased by 50 %. Despite high spatial variability in infiltrability, these parameters correlated well with time since conversion and with each other. Our results indicate that landscape planners should include wooded elements in the landscape in sufficient quantity to ensure water infiltration at rates that prevent runoff and erosion. This should be the case for restoring degraded landscapes, as well as for the development of new agricultural areas.

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Soil Management for Conservation and Sustainable Rice Production in an Irrigated Area of Eastern Nigeria

Outlook on Agriculture ◽

10.1177/003072709602500303 ◽

1996 ◽

Vol 25 (3) ◽

pp. 151-156 ◽

Cited By ~ 4

Author(s):

Charles L.A. Asadu

Keyword(s):

Organic Matter ◽

Bulk Density ◽

Relative Proportion ◽

Soil Management ◽

Infiltration Rate ◽

Water Infiltration ◽

Negative Effects ◽

Irrigation Project ◽

Irrigated Area ◽

Cropping Season

An comparison of soilmanagement techniques In the different irrigation zones of Lower Anambra Irrigation Project (LAIP) In eastern Nigeria showed that heavy use of machinery led to Increases In bulk density and decreases In field water Infiltration rate. The relative proportion of clay In the irrigated fields Increased as a result of Irrigation, suggesting that mobilized clay from uncemented main and distribution canals Is carried and deposited In the rice fields. Both Irrigation and the use of machinery have had substantial negative effects on soli nutrient levels, and there is a danger of this process continuing. Soli management for sustainable production in the area should centre on applying organic matter in combination with inorganic fertilizers, monitoring the soli properties on yearly basis before the cropping season for fertilizer and lime recommendations, and varying the depth of tillage to Increase or maintain the effective soli depth.

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Infiltration Characteristics of Topsoil in Reclamation Farmland Filled with Yellow River Sediment

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.988.498 ◽

2014 ◽

Vol 988 ◽

pp. 498-501

Author(s):

Fang Shao ◽

Dong Wen Liu ◽

Shu Jiang ◽

Zhi Yong Qiao ◽

Shan Lin

Keyword(s):

River Sediment ◽

Yellow River ◽

Infiltration Rate ◽

Water Infiltration ◽

First Year ◽

Infiltration Process ◽

Important Indicator ◽

The Third ◽

Yellow River Sediment ◽

And Control

Infiltration is an important indicator of water and nutrient holding capacity of soil. Lap infiltration apparatus was used to measure vertical water infiltration process in the third year of Yellow River sediment filling reclamation. Five infiltration models were selected to fit the infiltration characteristic curves, analyzed the infiltration experimental results during 3 years of reclamation. The results showed that, the mean initial infiltration rate and mean stable infiltration rate of filling farmland in the third year were 17.06mm/min and 2.38mm/min, and were 8.81mm/min and 0.99 mm/min higher than that of the first year, 3.58mm/min and 0.39mm/min higher than that of the second year. It indicated that, infiltration rate of filling farmland increased significantly after cultivation due to the farming practices and roots development, and the role of soil microorganisms and small animals. Filling farmland has some self-recovery capabilities. In addition, Kostiakov model has better fitting effect than Mezencev model for both filling farmland and control farmland.

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Effect of riverbed sediment flushing and clogging on river-water infiltration rate: a case study in the Second Songhua River, Northeast China

Hydrogeology Journal ◽

10.1007/s10040-020-02218-7 ◽

2020 ◽

Author(s):

Geng Cui ◽

Xiaosi Su ◽

Yan Liu ◽

Shida Zheng

Keyword(s):

River Water ◽

Northeast China ◽

Infiltration Rate ◽

Water Infiltration ◽

Songhua River ◽

Sediment Flushing ◽

Riverbed Sediment ◽

The Second Songhua River

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Influence of Living and Dead Roots of Gansu Poplar on Water Infiltration and Distribution in Soil

Applied Sciences ◽

10.3390/app10103593 ◽

2020 ◽

Vol 10 (10) ◽

pp. 3593 ◽

Cited By ~ 1

Author(s):

Dashuai Zhang ◽

Yao Dai ◽

Lingli Wang ◽

Liang Chen

Keyword(s):

Preferential Flow ◽

Storage Capacity ◽

Water Storage ◽

Infiltration Rate ◽

Water Infiltration ◽

Soil Porosity ◽

Soil Permeability ◽

Rapid Urbanization ◽

Water Storage Capacity ◽

Porosity And Permeability

During rapid urbanization, it is necessary to increase soil permeability and soil porosity for reducing urban runoff and waterlogging risk. Woody plants are known to increase soil porosity and preferential flow in soil via living roots growth and dead roots decay. However, the primary results of dead woody plant roots on soil porosity and permeability have been discussed based only on the hypotheses or assumptions of different researchers. In this study, living and dead roots (decayed under natural conditions for more than 5 years) of Gansu poplar trees (Populus gansuensis) were selected. They were selected to compare the influence between living and dead roots on water infiltration rate and soil porosity in a cylindrical container (diameter = 20 cm, height = 66 cm) under laboratory conditions. Results indicated that the steady-state water fluxes at the bottom of the containers without roots (control), with living roots, and with dead roots were 54.75 ± 0.80, 61.31 ± 0.61, and 55.97 ± 0.59 cm d−1, respectively. Both living roots and dead roots increased the water infiltration rates in soil and also increased the water storage capacity of soil. The water storage capacities of soil without roots, with living roots, and with dead roots were 0.279, 0.317, and 0.322 cm3 cm−3, respectively. The results from SEM indicated that smaller pores (30–50 μm) were in living roots and larger pores (100–1000 μm) were in dead roots. The soil permeability was increased by living roots possibly due to the larger channels generated on the surface of the roots; however, water absorbed into the dead roots resulted in greater water storage capacity.

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A Sensitivity Analysis of Simulated Infiltration Rates to Uncertain Discretization in the Moisture Content Domain

Water ◽

10.3390/w11061192 ◽

2019 ◽

Vol 11 (6) ◽

pp. 1192

Author(s):

Lulu Liu ◽

Han Yu

Keyword(s):

Moisture Content ◽

Nonlinear Dynamical System ◽

Infiltration Rate ◽

Hydrologic Model ◽

Water Infiltration ◽

Nonlinear Dynamical ◽

Pore Sizes ◽

Infiltration Rates ◽

The Difference ◽

Region Scale

An unconditionally mass conservative hydrologic model proposed by Talbot and Ogden provides an effective and fast technique for estimating region-scale water infiltration. It discretizes soil moisture content into a proper but uncertain number of hydraulically interacting bins such that each bin represents a collection of pore sizes. To simulate rainfall-infiltration, a two-step alternating process runs until completion; and these two steps are surface water infiltration into bins and redistribution of inter-bin flow. Therefore, a nonlinear dynamical system in time is generated based on different bin front depths. In this study, using rigorous mathematical analysis first reveals that more bins can produce larger infiltration fluxes, and the overall flux variation is nonlinear with respect to the number of bins. It significantly implies that a greater variety of pore sizes produces a larger infiltration rate. An asymptotic analysis shows a finite change in infiltration rates for an infinite number of bins, which maximizes the heterogeneity of pore sizes. A corollary proves that the difference in the predicted infiltration rates using this model can be quantitatively bounded under a specific depth ratio of the deepest to the shallowest bin fronts. The theoretical results are demonstrated using numerical experiments in coarse and fine textured soils. Further studies will extend the analysis to the general selection of a suitable number of bins.

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Study on Variation of Surface Runoff and Soil Moisture Content in the Subgrade of Permeable Pavement Structure

Advances in Civil Engineering ◽

10.1155/2020/8836643 ◽

2020 ◽

Vol 2020 ◽

pp. 1-12

Author(s):

Lijun Hou ◽

Yuan Wang ◽

Fengchun Shen ◽

Ming Lei ◽

Xiang Wang ◽

...

Keyword(s):

Soil Moisture ◽

Moisture Content ◽

Soil Water ◽

Surface Runoff ◽

Rainfall Intensity ◽

Soil Moisture Content ◽

Asphalt Pavement ◽

Infiltration Rate ◽

Runoff Coefficient ◽

Flood Peak

The self-designed indoor simulated rainfall device was used to rain on five types of pavement structures with 4 types of rainfall intensity (2.5 mm/min, 3.4 mm/min, 4.6 mm/min, and 5.5 mm/min). The effect of rainfall intensity on the surface runoff, the relation between the subgrade soil moisture content changes, and the influence of initial soil water content on rain infiltration rate are studied. The test results show that the surface runoff coefficient of densely asphalted pavement is greater than 90% in drainage pavements and it has little influence on the reducing and hysteresis of the flood peak. The surface runoff coefficient of large-void asphalt pavement (permeable) is less than 40%. Although the large-void asphalt pavement (permeable) can reduce a small amount of surface runoff, it has no obvious effect on the reduction and hysteresis of the flood peak. In semipermeable pavement, with the increasing of the thickness of base (graded gravel), the surface runoff coefficient decreases at different rainfall intensities, parts of the surface runoff are reduced, and the arrival of flood peaks is delayed. In permeable roads, almost no surface runoff occurred. As time continued, the soil moisture content quickly reached a saturated state and presented a stable infiltration situation under the action of gravity and the gradient of soil water suction. As the initial moisture content increases, the initial infiltration rate decreases and the time to reach a stable infiltration rate becomes shorter. The drier the soil, the greater the initial infiltration rate and the higher the soil moisture content after infiltration stabilization. Permeable roads can greatly alleviate the pressure of urban drainage and reduce the risk of storms and floods.

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Soil Infiltration Characteristics under Different Land at Western Yunnan Plateau

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.884-885.694 ◽

2014 ◽

Vol 884-885 ◽

pp. 694-697 ◽

Cited By ~ 1

Author(s):

Dan Hui Qi ◽

Zhi Qin Liu

Keyword(s):

Land Use ◽

Infiltration Rate ◽

Water Infiltration ◽

Forest Land ◽

Dry Land ◽

Grass Land ◽

Yunnan Plateau ◽

Soil Water Infiltration ◽

Land Use Types ◽

Western Yunnan

On the basis of soil physical properties of three different land use types at western Yunnan plateau, the soil moisture infiltration characteristics in these three land use types were studied with the advanced double-rings method. The results showed that there were differences on soil bulk density, soil porosity, initial soil water infiltration rate and stable soil water infiltration rate. The bulk density of dry land is higher than that of forest land and grass land, which results in the physical properties and structure of forest land soil are better than those of non-forest land. For the initial infiltration, its order from high to low is forest land, dry land and grass land. Among different stands, it is showed that from the average infiltration rate and steady infiltration rate, its order from high to low was forest land, grass land and dry land.

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Infiltration Characteristics of Soil Moisture in Liangping County

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.641-642.183 ◽

2014 ◽

Vol 641-642 ◽

pp. 183-186

Author(s):

Shu Yan ◽

Juan Gao ◽

Zhong Yuan Zhang ◽

Feng Lin Zuo ◽

Wei Hua Zhang

Keyword(s):

Soil Moisture ◽

Soil Water ◽

Infiltration Rate ◽

Water Shortage ◽

Water Infiltration ◽

Soil Infiltration ◽

Infiltration Model ◽

Double Ring ◽

Soil Water Infiltration ◽

Relationship Of

In order to relieve water shortage, many countries develop water-saving industries and increase water use rate of irrigation. The research on soil water infiltration has important effect on infiltration and runoff, as well as for irrigation. The study carried out in Liangping district of Chongqing by using double ring infiltration method and exploring the reasonable infiltration model in the study area. The relationship of initial soil moisture and irrigation coefficient was studied as well. The results showed that: the Kostiakov empirical formula could simulate the process of soil water infiltration properly. The soil infiltration rate of Liangping is 0.0320cm/min in the selected location.

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