A collection method and irrigation system suitable for rock surface runoff in karst areas
A karst and rock surface technology, applied in the field of collection and irrigation system for rock surface runoff in karst areas, can solve the problems of low efficiency, single irrigation method, difficult collection of karst rock surface runoff, etc., and achieve the effect of improving efficiency
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Embodiment 1
[0021] A method suitable for collecting runoff from rock faces in karst areas, the steps of which are:
[0022] The first step is to try to choose well-developed rocks with relatively flat rock surfaces in the exposed rock areas of karst slopes1. Around the top of the rock 1, use cement mortar 3 to build the surrounding water ridge 2, and the surrounding water ridge 2 is about 10 cm high, and the pit on the rock 1 top is filled with cement with cement mortar 3 simultaneously. In the place where the rainwater gathers, an orifice of about 2 cm is opened on the surrounding water ridge 2, so that the rainwater can discharge down along the rock surface after coming out of the orifice.
[0023] The second step is to select the rock face that water flows down, and below the rock face, close to the soil-rock boundary, use cement mortar to build strip cement on the rock face with cement mortar 3, and start building from the left end of the rock face until the right end. The strip ceme...
Embodiment 2
[0027] The applicant conducted an experiment at the Huanjiang Karst Ecosystem Observation and Research Station of the Chinese Academy of Sciences in Huanjiang Maonan Autonomous County, Hechi City, Guangxi from August 2017 to November 2017. In the field, the above method was used to build a rock surface flow collection tank, and the tipping bucket rain gauge was used to Long-term quantitative monitoring of runoff on rock surfaces. By searching the meteorological data of the research station, the rainfall data from August to October can be obtained. Among them, daily rainfall (ml) = daily rainfall mm × rock surface area, collection efficiency = rock face runoff / rainfall. The results are shown in Table 1.
[0028] Table 1 Test data
[0029] date Rainfall (ml) Rock surface runoff (ml) Collection efficiency (%) 17.8.23 32000 5000 15.6 17.8.24 196000 30600 15.6 17.8.25 28800 8700 30.3 17.8.27 8400 1500 42.9 17.8.28 241600 51000 21...
Embodiment 4
[0039] according to figure 1 , figure 2 , image 3 , Figure 4 It can be seen that a system suitable for irrigating with rock surface runoff in karst areas includes rock 1, surrounding water ridge 2, cement mortar 3, L-shaped polyvinyl chloride strip 4, silicone glue 5, and the first water outlet 6 , water pipe 7, prefabricated water collection bucket 8, first valve 9, first water inlet 10, second water outlet 11, tarpaulin 12, first polyvinyl chloride round pipe 13, second polyvinyl chloride round pipe 14, stirring Bucket 15, the second water inlet 16, the third water outlet 17, the second valve 18, the prefabricated polyvinyl chloride round pipe 19, and its connection relationship is: build surrounding water ridges 2 with cement mortar 3 around the top of the rock 1 , near the soil-rock boundary, use cement mortar 3 to form strips of cement along the surface of the rock 1, and after the cement mortar 3 has a certain plasticity, insert the L-shaped polyvinyl chloride stri...
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