JPH07180135A - Electrochemical soil and soil stabilization method - Google Patents

Abstract

PURPOSE:To improve poor subsoil and poor soil and to make it possible to reinforce both poor subsoil and soil by arranging the negative pole and positive pole in proper positions of the subsoil and soil to the poor subsoil and poor soil having the relatively small coefficient of water permeability to energize power between the negative pole and positive pole. CONSTITUTION:Electric power is generated by making use of electric energy, and the negative pole and positive pole are arranged in proper positions of poor subsol and poor soil having the relatively small coefficient of water permeability. For example, the bar-shaped negative pole of copper and the bar-shaped positive pole of aluminum are arranged, an electric current is supplied between the negative pole and positive pole to improve and reinforce soil. In that case, the province near the negative pole side is relatively strong in comparison with the positive pole side, and contractibility is also large, so that power between both negative and positive poles is reversed to get efficiency. Electrodes are arranged in the uncontracted and unsolidified soil, and when the soil is contracted and solidified, the electrodes are moved to feed electric power, and the supply of water for feeding electric power is continued during the power connection.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for electrochemically stabilizing soil and ground and, more particularly, to a method for electrochemically stabilizing soil and ground. Electricity can be transmitted from the part of the power source to the site where the soft soil and ground are present, and the soil and ground are improved by passing electricity between the cathode and the anode provided at appropriate positions on the soft soil and ground. The present invention relates to a method of stabilizing electrochemically weak soil and ground that can be strengthened by strengthening it. Conventionally, various techniques for improving soft ground have been developed. For example, the sand drain method or the well point method has been developed. However, the sand drain method or the well point method is
Even if it is beneficial on soft ground with relatively large hydraulic conductivity,
It is practically ineffective on soft soil with clay layers having relatively low hydraulic conductivity. However, it has become clear at the research stage that it can be expected that actual results will be achieved if electrochemical soil and ground stabilization methods are used. However, even if the usefulness of the method of electrochemically stabilizing the soil and the ground is known, in order to achieve the results, the soil and ground stabilization treatment is required. Provide a cathode and an anode provided at appropriate positions in the soft ground of the clay layer, which has a relatively small hydraulic conductivity, and energize between the cathode and the anode, and the soil of the soft ground of the clay layer and its ground The stabilization process will be performed, but the power source is secured, and the electricity generated there is energized between the cathode and the anode provided at appropriate positions in the soil and ground to improve the soil and ground for the first time. Can be strengthened. Under any condition, in any area, or in any other case, if the soft ground has a relatively low hydraulic conductivity, the soft ground is surely improved. It is an object of the present invention to be able to strengthen. According to the present invention, for a soft ground having a relatively small hydraulic conductivity or a soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground. And an electric current is passed between the cathode and the anode so as to improve and strengthen the soil and the soil, and an electrochemical soil and ground stabilization method. According to the present invention, with respect to soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, respectively. Since it is an electrochemical soil and ground stabilization method in which an electric current is passed between the anode and the soil to improve and strengthen the soil and ground, the electrical energy provided relatively inexpensively from an economical point of view. To generate electricity, and place the cathode and anode at appropriate positions in the soil of the electrochemical soil of the present invention and in the soil of soft ground having a relatively small hydraulic conductivity by the ground stabilization method, and passing an electric current between them. Can improve and strengthen the soil and ground. Example 1 The present invention locates a cathode and an anode at appropriate positions on the soil and the soil, on soft soil having a relatively small permeability or soft soil having a relatively small permeability.
It is an electrochemical soil and ground stabilization method in which a direct current is passed between the cathode and the anode to improve and strengthen the soil and ground. [Embodiment 2] According to the present invention, with respect to a soft ground having a relatively small hydraulic conductivity or a soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground.
The power source is a solar heat generator, and electricity generated by the solar heat generator is applied between the cathode and the anode provided at appropriate positions of the soil and ground to improve and strengthen the soil and ground. Ulu electrochemical soil and ground stabilization method. [Embodiment 3] The present invention locates a cathode and an anode at appropriate positions on the soil and the soil for soft soil having a relatively small permeability or soft soil having a relatively small permeability.
The power source is a generator using solar heat, and the electricity generated by the generator using solar heat is converted into a direct current through a rectifier, and a direct current is applied between the cathode and the anode provided at appropriate positions in the soil and ground. It is an electrochemical soil and ground stabilization method for improving and strengthening the soil and ground. [Example 4] The present invention locates a cathode and an anode at appropriate positions on the soil and the soil for soft soil having a relatively small permeability or soft soil having a relatively small permeability.
The power source is a generator that utilizes the heat generated in the refuse incinerator, and the electricity generated by the generator that utilizes the heat thus generated is between the cathode and the anode provided at appropriate positions in the soil and ground. It is an electrochemical soil and ground stabilization method capable of improving and strengthening the soil and ground by applying electricity. [Embodiment 5] The present invention locates a cathode and an anode at appropriate positions on the soil and the soil for soft soil having a relatively small permeability or soft soil having a relatively small permeability.
The power source is a generator that uses the heat generated in the refuse incinerator, and the electricity that is generated by the generator that uses the heat generated in that way is converted into a direct current through a rectifier and installed at appropriate locations in the soil and ground. And a method for stabilizing electrochemical soil and ground, which can improve and strengthen the soil and ground by passing a direct current between the cathode and the anode. [Embodiment 6] According to the present invention, for soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground.
The power source was a generator that used the temperature difference between the position of the surface of the ocean or near the surface of the water and the position of the water or the bottom of the water, and the electricity generated by the generator using the difference in temperature was provided at the appropriate position on the soil and ground. It is an electrochemical soil and ground stabilization method in which electricity is applied between a cathode and an anode to improve and strengthen the soil and ground. [Embodiment 7] The present invention locates a cathode and an anode at appropriate positions on the soil and the soil, on soft soil having a relatively small permeability or soft soil having a relatively small permeability.
The power source is a generator that utilizes the temperature difference between the position of the surface of the ocean or near the surface of the water and the position of the water or the bottom of the water, and the electricity generated by the generator that uses the difference in temperature is converted into a direct current through a rectifier and the soil And an electrochemical soil and ground stabilization method in which a direct current is passed between a cathode and an anode provided at appropriate positions in the ground to improve and strengthen the soil and ground. [Embodiment 8] The present invention locates a cathode and an anode at appropriate positions on the soil and the soil for soft soil having a relatively small permeability or soft soil having a relatively small permeability.
The power source is a generator using ocean wave energy, and electricity generated by the generator utilizing the wave energy is energized between a cathode and an anode provided at appropriate positions of the soil and ground, and the soil and It is an electrochemical soil and ground stabilization method that can improve and strengthen the ground. [Embodiment 9] According to the present invention, for soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground.
The power source is a generator that uses ocean wave energy, and the electricity generated by the generator that uses the wave energy is converted to a direct current through a rectifier, and a cathode and an anode are provided at appropriate positions in the soil and ground. It is an electrochemical soil and ground stabilization method in which a direct current is passed between the soil and the ground to improve and strengthen the soil and ground. [Embodiment 10] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
The cathode and anode are located at appropriate positions on the soil and ground, and the power source is a generator that uses the tidal current energy of the ocean, and the electricity generated by the generator that uses the tidal energy is placed at the appropriate positions on the soil and the ground. It is an electrochemical soil and ground stabilization method in which electric current is applied between the provided cathode and anode to improve and strengthen the soil and ground. [Embodiment 11] The present invention relates to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
The cathode and anode are located at appropriate positions on the soil and ground, the power source is a generator that uses the tidal current energy of the ocean, and the electricity generated by the generator that uses the tidal energy is turned into a direct current through a rectifier. It is an electrochemical soil and ground stabilization method in which a direct current is passed between a cathode and an anode provided at appropriate positions on the soil and ground to improve and strengthen the soil and ground. [Embodiment 12] The present invention relates to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
The cathode and the anode are located at appropriate positions on the soil and the ground, and the power source is a generator that uses tidal energy using the tidal difference of the ocean, and electricity generated by the generator that uses the tidal energy is applied to the soil and the soil. It is an electrochemical soil and ground stabilization method in which an electric current is applied between a cathode and an anode provided at appropriate positions on the ground to improve and strengthen the soil and the ground. [Embodiment 13] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
A cathode and an anode are located at appropriate positions on the soil and ground, the power source is a generator that uses tidal energy that utilizes the tidal difference of the ocean, and electricity generated by the generator that uses the tidal energy is passed through a rectifier. The method is an electrochemical soil and ground stabilization method in which a direct current is applied between a cathode and an anode provided at appropriate positions on the soil and ground to improve and strengthen the soil and ground. [Embodiment 14] The present invention relates to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
The cathode and the anode are located at appropriate positions on the soil and ground, and the power source is a generator that uses the tidal energy of the strait, and the electricity generated by the generator that uses the tidal energy is placed at the appropriate positions on the soil and ground. It is an electrochemical soil and ground stabilization method in which electric current is applied between the provided cathode and anode to improve and strengthen the soil and ground. [Embodiment 15] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
A cathode and an anode are placed at appropriate positions on the soil and ground, and the power source is a generator that uses the tidal energy of the straits, and the electricity generated by the generator that uses the tidal energy is turned into a direct current through a rectifier. It is an electrochemical soil and ground stabilization method in which a direct current is passed between a cathode and an anode provided at appropriate positions on the soil and ground to improve and strengthen the soil and ground. [Embodiment 16] The present invention relates to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Cathodes and anodes are placed at appropriate positions on the soil and ground, and the power source is a generator that uses the energy of the effluent of the river, and the electricity that is generated by the generator that uses the energy of the effluent is the soil and the ground. The electrochemical soil and ground stabilization method in which the soil and ground can be improved and strengthened by applying an electric current between the cathode and the anode provided at the appropriate position. [Embodiment 17] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity.
A cathode and an anode are located at appropriate positions on the soil and ground, and the power source is a generator that uses the energy of the spillage of the river. It is an electrochemical soil and ground stabilization method in which a direct current is passed between a cathode and an anode provided at appropriate positions on the soil and ground to improve and strengthen the soil and ground. [Embodiment 18] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
A cathode and an anode are located at appropriate positions on the soil and ground, and the power source is a generator that uses the energy of the water flowing down at the river weir, and the electricity generated by the generator that uses the energy of the water flowing down is It is an electrochemical soil and ground stabilization method in which electricity is applied between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. EXAMPLE 19 The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Cathodes and anodes are placed at appropriate positions on the soil and ground, and the power source is a generator that uses the energy of the water flowing down the river weir, and the electricity generated by the generator that uses the energy of the water flowing down is rectified. In electrochemical soil and ground stabilization method that can improve and strengthen the soil and ground by passing a direct current between the cathode and the anode provided at appropriate positions in the soil and ground through direct current through is there. [Embodiment 20] The present invention relates to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
A cathode and an anode are located at appropriate positions on the soil and the ground, and the power source is a generator of a hydroelectric power plant, and electricity generated by the generator is between the cathode and the anode provided at the appropriate positions on the soil and the ground. It is an electrochemical soil and ground stabilization method in which electricity is applied to the soil to improve and strengthen the soil and ground. Twenty-first Embodiment The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Position the cathode and anode at appropriate positions on the soil and ground, and use the power source as the generator of the hydroelectric power plant, and convert the electricity generated by the generator into a direct current through the rectifier to the appropriate positions on the soil and ground. It is an electrochemical soil and ground stabilization method in which a direct current is passed between the provided cathode and anode to improve and strengthen the soil and ground. [Embodiment 22] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
A cathode and an anode are located at appropriate positions on the soil and the ground, and the power source is a generator of a thermal power plant, and the electricity generated by the generator is between the cathode and the anode provided at the appropriate positions on the soil and the ground. It is an electrochemical soil and ground stabilization method in which electricity is applied to the soil to improve and strengthen the soil and ground. Twenty-third Embodiment The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Position the cathode and anode at appropriate positions on the soil and ground, and convert the electricity generated by the power source into a direct current through a rectifier, and apply a direct current between the cathode and anode provided at the appropriate positions on the soil and ground. Then, when the ground contracts and hardens, then the cathode and the anode are moved to the ground that has not yet shrunk and hardened to energize it, and while supplying electricity, water is supplied continuously to the electrochemical soil. And the ground stabilization method. [Embodiment 24] The present invention relates to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
A cathode and an anode are located at appropriate positions on the soil and the ground, and the power source is a generator of a wind power plant, and the electricity generated by the generator is between the cathode and the anode provided at the appropriate positions on the soil and the ground. It is an electrochemical soil and ground stabilization method in which electricity is applied to the soil to improve and strengthen the soil and ground. [Embodiment 25] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Position the cathode and anode at appropriate positions on the soil and ground, and use the power source as the generator of the wind power plant, and convert the electricity generated by the generator into a direct current through the rectifier to the appropriate positions on the soil and ground. It is an electrochemical soil and ground stabilization method in which a direct current is passed between the provided cathode and anode to improve and strengthen the soil and ground. EXAMPLE 26 The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Electrochemical soil and ground stabilization, where cathodes and anodes are located at appropriate locations on the soil and ground, and electric current is passed between the copper cathode and the aluminum anode to improve and strengthen the soil and ground. It is a chemical method. [Embodiment 27] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Electrochemical soil and ground where cathode and anode are located at appropriate positions on the soil and ground, and a direct current is applied between the cathode made of copper and the anode made of aluminum to improve and strengthen the soil and ground. It is a stabilizing method. [Embodiment 28] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
An electrochemical method in which a cathode and an anode are located at appropriate positions in the soil and ground, and an electric current is applied between the copper rod-shaped cathode and the aluminum rod-shaped anode to improve and strengthen the soil and ground. Soil and ground stabilization method. [Example 29] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Electrochemistry that positions a cathode and an anode at appropriate positions in the soil and the ground, and applies a direct current between the copper rod-shaped cathode and the aluminum rod-shaped anode to improve and strengthen the soil and the ground. It is a static soil and ground stabilization method. [Embodiment 30] The present invention relates to soft soil having a relatively small permeability coefficient or soft soil having a relatively small permeability coefficient,
An electrochemical method in which a cathode and an anode are located at appropriate positions in the soil and ground, and an electric current is passed between the copper rod-shaped cathode and the aluminum plate-shaped anode to improve and strengthen the soil and ground. Soil and ground stabilization method. [Embodiment 31] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Electrochemistry that positions a cathode and an anode at appropriate positions in the soil and the ground, and applies a direct current between the copper rod-shaped cathode and the aluminum plate-shaped anode to improve and strengthen the soil and the ground. It is a static soil and ground stabilization method. [Embodiment 32] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
An electrochemical method in which a cathode and an anode are located at appropriate positions in the soil and ground, and an electric current is applied between the copper plate-shaped cathode and the aluminum plate-shaped anode to improve and strengthen the soil and ground. Soil and ground stabilization method. [Embodiment 33] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Electrochemistry that positions a cathode and an anode at appropriate positions in the soil and the ground, and applies a direct current between the copper plate-shaped cathode and the aluminum plate-shaped anode to improve and strengthen the soil and the ground. It is a static soil and ground stabilization method. [Embodiment 34] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
Place the cathode and anode at appropriate positions on the soil and ground, and when the current is passed between the cathode and the anode, pass the current in the state where the cathode and the anode are converted, and the vicinity of both cathode sides. Is contracted and, as a result, contracted on either side to improve and strengthen the soil and ground, which is an electrochemical soil and ground stabilization method. [Embodiment 35] The present invention relates to soft soil having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity,
When the cathode and the anode are placed side by side at appropriate positions on the soil and the ground, and when a current is passed between the cathode and the anode, the direction in which the current flows is such that the cathode and the anode are converted. An electric current is applied to facilitate contraction in the vicinity of both cathode sides, and as a result, both sides are contracted so that the soil and ground can be improved and strengthened. Electrochemical soil and ground stability It is a chemical method. According to the present invention, with respect to soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, respectively. In light of the actual situation of the region or from the economical point of view, it is an electrochemical soil and a ground stabilization method that can improve and strengthen the soil and ground by passing an electric current between the anode and Electricity is generated at low cost, and the electricity is electrochemically stabilized by the method for stabilizing the soft soil and the soft ground of the present invention to a suitable position in the soil of the soft ground where the hydraulic conductivity is relatively small. There is an effect that a cathode and an anode are positioned and an electric current is passed between them to improve and strengthen the soil and ground. And, in particular, the present invention generates electricity by using electric energy provided at a relatively low cost, and a current between a cathode and an anode positioned at an appropriate position in soil of soft ground having a relatively small hydraulic conductivity. To improve and strengthen the soil and ground, but the area near the cathode side is relatively stronger than the anode side and the degree of contraction is large, so reverse the current flow between the cathode and anode. You can increase the effect by setting. Further, the electrochemical soil and the ground stabilization method of the present invention, the ground is such that the ground has not been contracted and hardened yet, the cathode and the anode are positioned, and when the ground is contracted and hardened, it is moved and energized, It is particularly effective to continue supplying water for conduction during energization.

Claims (1)

Claims: 1. For soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the cathodes thereof are placed. An electrochemical soil and ground stabilization method in which an electric current is applied between the anode and the anode to improve and strengthen the soil and ground. 2. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and between the cathode and the anode. The electrochemical soil and ground stabilization method according to claim 1, wherein a direct current is applied to improve and strengthen the soil and ground. 3. A soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source thereof is a solar heat generator. 2. The electrochemical method according to claim 1, wherein electricity generated by the solar heat generator is applied between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. Soil and ground stabilization method. 4. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source thereof is a solar heat generator. The electricity generated by the solar heat generator is converted into a direct current through a rectifier, and a direct current is passed between the cathode and the anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, which is made possible. 5. For a soft soil having a relatively low permeability or a soft soil having a relatively low permeability, a cathode and an anode are placed at appropriate positions on the soil and the soil, and the power source is generated by a refuse incinerator. Improving the soil and ground by making it a generator using heat and passing electricity generated by the generator using heat thus generated between a cathode and an anode provided at appropriate positions in the soil and ground The electrochemical soil and ground stabilization method according to claim 1, wherein the electrochemical soil and the ground are stabilized. 6. For a soft soil having a relatively low permeability or a soft soil having a relatively low permeability, a cathode and an anode are placed at appropriate positions on the soil and the soil, and the power source is generated by a refuse incinerator. A generator that uses heat is generated, and the electricity generated in the generator that uses the heat thus generated is converted into a direct current through a rectifier to form a direct current between a cathode and an anode provided at appropriate positions in the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, wherein an electric current can be applied to improve and strengthen the soil and ground. 7. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source thereof is the water surface of the ocean or the water surface. A generator that uses the temperature difference between a nearby position and the position of the water or the bottom of the water is used, and the electricity generated by the generator that uses the temperature difference is passed between the cathode and the anode provided at appropriate positions on the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, wherein said soil and ground are improved and strengthened. 8. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source is the water surface of the ocean or the water surface. A cathode using a temperature difference between a nearby position and the position of the water or the bottom of the water, and the electricity generated by the temperature difference generator is converted into a direct current through a rectifier and placed at the appropriate position on the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, wherein a direct current is passed between the anode and the anode so that the soil and ground can be improved and strengthened. 9. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and its power source is set to the ocean wave energy. In order to improve and strengthen the soil and ground by supplying electricity generated by the generator using the wave energy to the electricity generated between the cathode and the anode provided at appropriate positions of the soil and ground. The electrochemical soil and ground stabilization method according to claim 1. 10. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source thereof is set to the ocean wave energy. In the generator used, the electricity generated by the generator using the wave energy is converted into a direct current through a rectifier, and a direct current is passed between the cathode and the anode provided at appropriate positions in the soil and the ground, The electrochemical soil and ground stabilization method according to claim 1, which is capable of improving and strengthening soil and ground. 11. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and ground, and the power source thereof is set to the tidal current energy of the ocean. In order to improve and strengthen the soil and ground by supplying electricity generated by the generator using the tidal current energy between the cathode and the anode provided at appropriate positions of the soil and ground. The electrochemical soil and ground stabilization method according to claim 1. 12. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source thereof is set to the tidal current energy of the ocean. In the generator used, the electricity generated in the generator using the tidal current energy is converted into a direct current through a rectifier, and a direct current is passed between the cathode and the anode provided at appropriate positions in the soil and ground, and The electrochemical soil and ground stabilization method according to claim 1, which is capable of improving and strengthening soil and ground. 13. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and the power source thereof is set to the tidal range of the ocean. A generator using the tidal energy used is used, and electricity generated by the generator using the tidal energy is applied between the cathode and the anode provided at appropriate positions of the soil and ground to improve the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, which is capable of being strengthened. 14. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and its power source is set to the tidal range of the ocean. A generator using the tidal energy used, and the electricity generated by the generator using the tidal energy is converted into a direct current through a rectifier, and a direct current is applied between the cathode and the anode provided at appropriate positions in the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, wherein the soil and ground are improved and strengthened by applying electricity to the soil. 15. For a soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source thereof is set to the tidal current energy of the strait. In order to improve and strengthen the soil and ground by supplying electricity generated by the generator using the tidal current energy between the cathode and the anode provided at appropriate positions of the soil and ground. The electrochemical soil and ground stabilization method according to claim 1. 16. For soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source thereof is set to the tidal current energy of the strait. In the generator used, the electricity generated in the generator using the tidal current energy is converted into a direct current through a rectifier, and a direct current is passed between the cathode and the anode provided at appropriate positions in the soil and ground, and The electrochemical soil and ground stabilization method according to claim 1, which is capable of improving and strengthening soil and ground. 15. For a soft ground having a relatively small hydraulic conductivity or a soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source is set to the drainage water of the river. It is a generator that uses energy,
The electricity generated by a generator using the energy of the flowing water is passed between a cathode and an anode provided at appropriate positions on the soil and the ground so that the soil and the ground can be improved and strengthened. Described electrochemical soil and ground stabilization method. 16. For soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source thereof is used as the drainage water of a river. It is a generator that uses energy,
Electricity generated by a generator utilizing the energy of the flowing water is converted into a direct current through a rectifier, and a direct current is passed between a cathode and an anode provided at appropriate positions of the soil and ground to separate the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, which can be improved and strengthened. 17. For a soft soil having a relatively small hydraulic conductivity or a soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the soil, and the power source is a river weir. In the generator using the energy of the flowing water, electricity generated in the generator using the energy of the flowing water is energized between the cathode and the anode provided at appropriate positions in the soil and the ground to separate the soil and the ground. The electrochemical soil and ground stabilization method according to claim 1, which can be improved and strengthened. 18. For a soft soil having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the soil, and the power source is a river weir. A generator that uses the energy of the flowing water, and the electricity generated by the generator that uses the energy of the flowing water is converted into a direct current through a rectifier between the cathode and the anode provided at appropriate positions in the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, wherein a direct current is applied to improve and strengthen the soil and ground. 19. For soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source is a power generation of a hydroelectric power plant. 2. The electrochemistry according to claim 1, wherein the electricity generated by the generator is passed between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. Soil and ground stabilization method. 20. For soft ground having a relatively small hydraulic conductivity or soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source is a power generation of a hydroelectric power plant. Machine, the electricity generated by the generator is converted into a direct current through a rectifier, and a direct current is passed between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, which is made possible. 21. For soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source thereof is used for power generation of a thermal power plant. 2. The electrochemistry according to claim 1, wherein the electricity generated by the generator is passed between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. Soil and ground stabilization method. 22. For soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source is a power generation of a thermal power plant. Machine, the electricity generated by the generator is converted into a direct current through a rectifier, and a direct current is passed between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, which is made possible. 23. With respect to soft ground or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and electricity generated by the power source is converted into a direct current through a rectifier. When a direct current is applied between the cathode and the anode provided at appropriate positions in the soil and the ground, and the ground contracts and hardens, the cathode and anode are then moved to the ground that has not yet contracted and hardened, and the current flows. The electrochemical soil and ground stabilization method according to claim 1, wherein the supply of water is continued during energization. [Claim 24] For soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and the power source thereof is generated by a wind power station. Machine, the electricity generated by the generator is converted into a direct current through a rectifier, and a direct current is passed between a cathode and an anode provided at appropriate positions in the soil and ground to improve and strengthen the soil and ground. The electrochemical soil and ground stabilization method according to claim 1, which is made possible. 25. A soft ground having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and a cathode made of copper and an aluminum The electrochemical soil and ground stabilization method according to claim 1, wherein an electric current is passed between the anode and the anode to improve and strengthen the soil and ground. 26. For soft ground or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and a conductive material is provided between the aluminum cathode and the anode. The electrochemical soil and ground stabilization method according to claim 1, wherein a direct current is passed through water to improve and strengthen the soil and ground. 27. A soft ground having a relatively low water permeability or a soft soil having a relatively low water permeability is provided with a cathode and an anode at appropriate positions of the soil and the ground, and a copper cathode and an aluminum anode thereof. An electrochemical soil and ground stabilization method according to claim 1, wherein an electric current is applied between the soil and the ground to improve and strengthen the soil and ground. 28. A soft ground or soft soil having a relatively low hydraulic conductivity is provided with a cathode and an anode at appropriate positions on the soil and the ground, and a direct current is provided between the copper cathode and the aluminum anode. An electrochemical soil and ground stabilization method according to claim 1, wherein an electric current is applied to improve and strengthen the soil and ground. 29. With respect to soft ground or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and a copper rod-shaped cathode and an aluminum plate-shaped anode thereof are formed. An electrochemical soil and ground stabilization method according to claim 1, wherein an electric current is applied between the soil and the ground to improve and strengthen the soil and ground. 30. For a soft soil having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the soil, and a copper rod-shaped cathode and aluminum thereof are provided. The electrochemical soil and ground stabilization method according to claim 1, wherein a direct current is applied between the plate-shaped anode and the plate-shaped anode so that the soil and ground can be improved and strengthened. 31. For a soft soil having a relatively low hydraulic conductivity or a soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the soil, and a copper plate-shaped cathode and aluminum thereof are provided. The electrochemical soil and ground stabilization method according to claim 1, wherein an electric current is passed between the plate-shaped anode and the anode to improve and strengthen the soil and ground. 32. For a soft ground having a relatively small hydraulic conductivity or a soft soil having a relatively small hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and a copper plate-shaped cathode and aluminum thereof are provided. The electrochemical soil and ground stabilization method according to claim 1, wherein a direct current is applied between the plate-shaped anode and the plate-shaped anode so that the soil and ground can be improved and strengthened. 33. For soft ground having a relatively low hydraulic conductivity or soft soil having a relatively low hydraulic conductivity, a cathode and an anode are placed at appropriate positions on the soil and the ground, and between the cathode and the anode. When an electric current is passed, the cathode and the anode are converted and the electric current is passed, and the vicinity of both cathode sides contracts, and as a result, both sides contract, improving the soil and ground. The strengthened electrochemical soil and ground stabilization method according to claim 1. 34. With respect to a soft soil having a relatively small hydraulic conductivity or a soft soil having a relatively small hydraulic conductivity, a cathode and an anode are arranged side by side at appropriate positions of the soil and the soil,
When a current is passed between the cathode and the anode, the current is passed in a state in which the direction in which the current flows is such that the cathode and the anode are converted, making it easier to contract the vicinity of both cathodes, and the result 2. The method for electrochemically stabilizing soil and ground according to claim 1, wherein both sides are contracted so that the soil and ground can be improved and strengthened.