CN109536179A - Sand control with reverse osmosis dose and using reverse osmosis dose of desert of sand control method - Google Patents

Abstract

Sand control with reverse osmosis dose and using reverse osmosis dose of desert of sand control method, it includes preparing sand control with reverse osmosis dose, according to being mixed into the ratio of the sand controls of 1 parts by weight with reverse osmosis dose in 40 parts by weight sand below, the sand control that step A is obtained is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, obtains sand control with reverse osmosis sand；The reverse osmosis sand of one layer of sand control is laid on the surface in desert；Layer overlay sand is needed according to what the agriculture of plantation, woods crop root were grown in the top of the reverse osmosis sand bed of sand control, constitutes agriculture, woods plant growth sand bed.Its purpose is to provide one kind can low cost, it is efficient by desert transformation at being used for continuous rice cultivation, herbage, corn, potato, sweet potato or be used to plant the farm-forestry crops such as sea-buckthorn, red building, diversiform-leaved poplar, it significantly alters desert soil property, improves the sand control of beneficial microorganism viable counts in soil with reverse osmosis dose and the method for utilization reverse osmosis dose of desert of sand control.

Description

Sand control with reverse osmosis dose and using reverse osmosis dose of desert of sand control method

Technical field

A kind of method that the present invention relates to sand controls with reverse osmosis dose and utilizes reverse osmosis dose of desert of sand control.

Background technique

Desert refers to ground completely by sand covers, plant is very rare, rainwater is rare, air dried uncultivated area. Desert region is sandy beach or sand dune mostly, and the lower rock of sand also often occurs.Some deserts are salt flats, absolutely not vegetation.It is existing There is the technology that agriculture, woods crop such as rice are planted in desert in technology, method is with can be layered on the mulch of water leakage On sand ground, then covering one layer of sand above since mulch can prevent the water in paddy field quickly to underground leakage thus it is It may be implemented in desert area rice cultivation.But it is existing with the mulch price that can be layered on the mulch of water leakage on sand ground very Height, there are also the limitations of service life, and leakage problems caused by just will appear after having used 3-5 years due to mulch aging breakage are led This technology is caused not have promotional value in the case where rice price is in the normal state.In addition, being laid with ground in the lower section of root system of plant Film not only can seriously limit root system of plant to desert submerged growth, can also stop the rising of ground vapour, also be unfavorable for the life of plant It is long.And many plants are due to needing to allow root system to develop to underground, Xiang Shamo submerged growth, therefore can not be by the way of spreading The field that desert transformation Cheng Kerang sea-buckthorn, red building, diversiform-leaved poplar are grown.

Summary of the invention

The purpose of the present invention is to provide one kind can low cost, it is efficient by desert transformation at being used to continuously plant water Rice, herbage, corn, potato, sweet potato or for planting the farm-forestry crops such as sea-buckthorn, red building, diversiform-leaved poplar, significantly alter desert soil property, The sand control of beneficial microorganism viable counts in soil is improved with reverse osmosis dose and utilization sand control reverse osmosis dose of desert Method.

With reverse osmosis dose, the sand control is made of with reverse osmosis dose the mixing of the material of following components for sand control of the invention:

The hydroxymethyl cellulose of 4-6 parts by weight, the urea of 4-6 parts by weight, the ammonium hydrogen carbonate of 1.5-2.5 parts by weight, The sodium bicarbonate of 1.5-2.5 parts by weight, the sodium benzoate of 2.5-3.5 parts by weight, the polyacrylamide of 6-24 parts by weight, The ammonium polyphosphate of 2.5-3.5 parts by weight, the Sodium Polyacrylate of 8-12 parts by weight, the clay powder of 40-60 parts by weight；

The material stirring of above-mentioned parts by weight is uniformly mixed to get sand control is arrived with reverse osmosis dose.

Preferably, the sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 4.5-5.5 parts by weight, the urea of 4.5-5.5 parts by weight, the carbon of 1.8-2.2 parts by weight Sour hydrogen ammonium, the sodium bicarbonate of 1.8-2.2 parts by weight, the sodium benzoate of 2.8-3.2 parts by weight, the polypropylene of 18-22 parts by weight Amide, the ammonium polyphosphate of 2.8-3.2 parts by weight, the Sodium Polyacrylate of 9-11 parts by weight, the clay powder of 45-55 parts by weight.

Preferably, the sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 5 parts by weight, the urea of 5 parts by weight, the ammonium hydrogen carbonate of 2 parts by weight, the bicarbonate of 2 parts by weight Sodium, the sodium benzoate of 3 parts by weight, the polyacrylamide of 20 parts by weight, the ammonium polyphosphate of 3 parts by weight, the polypropylene of 10 parts by weight Sour sodium, the clay powder of 50 parts by weight.

Of the invention utilizes the sand control method of reverse osmosis dose of desert comprising following steps:

A, sand control is prepared with reverse osmosis dose, and sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 4-6 parts by weight, the urea of 4-6 parts by weight, the ammonium hydrogen carbonate of 1.5-2.5 parts by weight, The sodium bicarbonate of 1.5-2.5 parts by weight, the sodium benzoate of 2.5-3.5 parts by weight, the polyacrylamide of 6-24 parts by weight, The ammonium polyphosphate of 2.5-3.5 parts by weight, the Sodium Polyacrylate of 8-12 parts by weight, the clay powder of 40-60 parts by weight；

B, according to reverse osmosis dose of the ratio of sand control for being mixed into 1 parts by weight in 40 parts by weight sand below, step A is obtained The sand control arrived is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, obtains sand control with reverse osmosis sand；

C, the reverse osmosis sand of sand control that one layer of step B is obtained, the thickness of the reverse osmosis sand bed of sand control are laid on the surface in desert Degree is greater than 50mm；

D, layer overlay sheet is needed according to what the agriculture of plantation, woods crop root were grown in the top of the reverse osmosis sand bed of sand control The sand on ground constitutes agriculture, woods plant growth sand bed.

Preferably, sand control is made of with reverse osmosis dose the mixing of the material of following components in the step A:

The hydroxymethyl cellulose of 4.5-5.5 parts by weight, the urea of 4.5-5.5 parts by weight, the carbon of 1.8-2.2 parts by weight Sour hydrogen ammonium, the sodium bicarbonate of 1.8-2.2 parts by weight, the sodium benzoate of 2.8-3.2 parts by weight, the polypropylene of 18-22 parts by weight Amide, the ammonium polyphosphate of 2.8-3.2 parts by weight, the Sodium Polyacrylate of 9-11 parts by weight, the clay powder of 45-55 parts by weight；

It is that the sand controls of 1 parts by weight is mixed into the local sand according to 20-30 parts by weight with reverse osmosis in the step B The sand control that step A is obtained is uniformly mixed with reverse osmosis dose with the local sand of 60 mesh, obtains sand control reverse osmosis by the ratio of agent It is thoroughly husky.

Preferably, sand control is made of with reverse osmosis dose the mixing of the material of following components in the step A:

The hydroxymethyl cellulose of 5 parts by weight, the urea of 5 parts by weight, the ammonium hydrogen carbonate of 2 parts by weight, the bicarbonate of 2 parts by weight Sodium, the sodium benzoate of 3 parts by weight, the polyacrylamide of 20 parts by weight, the ammonium polyphosphate of 3 parts by weight, the polypropylene of 10 parts by weight Sour sodium, the clay powder of 50 parts by weight.

Preferably, the step D middle peasant, woods plant growth sand bed for rice cultivation, herbage, corn, potato, sweet potato or Sea-buckthorn, red building, diversiform-leaved poplar.

Preferably, in the step C the reverse osmosis sand bed of sand control with a thickness of 60-150mm；The step D middle peasant, woods Plant growth sand bed with a thickness of 200-1200mm.

Preferably, in the step C the reverse osmosis sand bed of sand control with a thickness of 80-120mm；The step D middle peasant, woods Plant growth sand bed with a thickness of 300-800mm.

Sand control of the invention is with reverse osmosis dose and utilizes the sand control method of reverse osmosis dose of desert, uses the present invention Exclusive sand control is with reverse osmosis dose, according to being mixed into the ratio of the sand controls of 1 parts by weight with reverse osmosis dose in 40 parts by weight sand below Example, the sand control that step A is obtained is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, the reverse osmosis sand bed of acquired sand control can Generate do not allow water penetration to pass through, but allow the root of plant can grow across unique property so that utilization of the invention is controlled The method of reverse osmosis dose of desert of sand can be used to plant the very flourishing desert of the root system developments such as sea-buckthorn, red building, diversiform-leaved poplar Ambient growth plant, while can be used for the crops such as rice cultivation, herbage, corn, potato, sweet potato, due to sand control reverse osmosis Saturating sand bed will not block ground vapour, therefore the plant planted using the present invention is in growth and development without limitation on the development of root system of plant Aspect is very good, is much better than the technology of the laying plastic below sand, since the material largely used is the sand from original place, The cost of land reconstruction is allowed to be greatly lowered, the cost that one mu of sand ground is transformed is about 3500 yuan.Experiment shows the kind by many years After plant, due to that can accumulate the ingredients such as a large amount of plant roots and stems in sand, the present invention can not only significantly alter planting soil The soil property on ground improves the content and fertility of the organic matter in soil, increases the crumb structure in soil property, promotion soil also can be improved In beneficial microorganism viable counts.It has to be emphasized that of the invention can be used to plant the root systems such as sea-buckthorn, red building, diversiform-leaved poplar hair The advantages of educating very flourishing desert Environment growing plant is to solve those skilled in the art not can solve always The technical issues of.Therefore, sand control of the invention has with reverse osmosis dose and using the sand control method of reverse osmosis dose of desert Can low cost, it is efficient by desert transformation at being used for continuous rice cultivation, herbage, corn, potato, sweet potato or be used to plant The farm-forestry crops such as sea-buckthorn, red building, diversiform-leaved poplar significantly alter desert soil property, improve beneficial microorganism viable counts in soil Feature undoubtedly has substantive distinguishing features outstanding and significant progress.

Below with reference to sand control of the present invention with reverse osmosis dose and using sand control with the method for reverse osmosis dose of desert make into One step explanation.

Specific embodiment

With reverse osmosis dose, the sand control is made of with reverse osmosis dose the mixing of the material of following components for sand control of the invention:

The hydroxymethyl cellulose of 4-6 parts by weight, the urea of 4-6 parts by weight, the ammonium hydrogen carbonate of 1.5-2.5 parts by weight, The sodium bicarbonate of 1.5-2.5 parts by weight, the sodium benzoate of 2.5-3.5 parts by weight, the polyacrylamide of 6-24 parts by weight, The ammonium polyphosphate of 2.5-3.5 parts by weight, the Sodium Polyacrylate of 8-12 parts by weight, the clay powder of 40-60 parts by weight；

The material stirring of above-mentioned parts by weight is uniformly mixed to get sand control is arrived with reverse osmosis dose.

As a further improvement of the present invention, above-mentioned sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 4.5-5.5 parts by weight, the urea of 4.5-5.5 parts by weight, the carbon of 1.8-2.2 parts by weight Sour hydrogen ammonium, the sodium bicarbonate of 1.8-2.2 parts by weight, the sodium benzoate of 2.8-3.2 parts by weight, the polypropylene of 18-22 parts by weight Amide, the ammonium polyphosphate of 2.8-3.2 parts by weight, the Sodium Polyacrylate of 9-11 parts by weight, the clay powder of 45-55 parts by weight.

As a further improvement of the present invention, above-mentioned sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 5 parts by weight, the urea of 5 parts by weight, the ammonium hydrogen carbonate of 2 parts by weight, the bicarbonate of 2 parts by weight Sodium, the sodium benzoate of 3 parts by weight, the polyacrylamide of 20 parts by weight, the ammonium polyphosphate of 3 parts by weight, the polypropylene of 10 parts by weight Sour sodium, the clay powder of 50 parts by weight.

Of the invention utilizes the sand control method of reverse osmosis dose of desert comprising following steps:

A, sand control is prepared with reverse osmosis dose, and sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 4-6 parts by weight, the urea of 4-6 parts by weight, the ammonium hydrogen carbonate of 1.5-2.5 parts by weight, The sodium bicarbonate of 1.5-2.5 parts by weight, the sodium benzoate of 2.5-3.5 parts by weight, the polyacrylamide of 6-24 parts by weight, The ammonium polyphosphate of 2.5-3.5 parts by weight, the Sodium Polyacrylate of 8-12 parts by weight, the clay powder of 40-60 parts by weight；

B, husky according to being mixed into the ratio of the sand controls of 1 parts by weight with reverse osmosis dose in 40 parts by weight local sand below The parts by weight of son can be the numerical value such as 40,38,35,32,30,25,18,16,14,12,8,6, and the sand control that step A is obtained is with instead Bleeding agent is uniformly mixed with the local sand of 60 mesh, obtains sand control with reverse osmosis sand；

C, the reverse osmosis sand of sand control that one layer of step B is obtained, the thickness of the reverse osmosis sand bed of sand control are laid on the surface in desert Degree is greater than 50mm；

D, layer overlay sheet is needed according to what the agriculture of plantation, woods crop root were grown in the top of the reverse osmosis sand bed of sand control The sand on ground constitutes agriculture, woods plant growth sand bed.

The present invention will be walked according to reverse osmosis dose of the ratio of sand control for being mixed into 1 parts by weight in 40 parts by weight sand below The sand control that rapid A is obtained is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, and the reverse osmosis sand bed of acquired sand control can produce and not allow Water penetration passes through, but allow the root of plant can grow across unique property.And the root growth of plant passes through sand control with reverse osmosis Sand bed will not cause sand control permeable with reverse osmosis sand bed, as long as neighbouring underground water source is sufficient, so that it may by land reconstruction at Rice planting field realizes the purpose for utilizing desert planting rice.

As a further improvement of the present invention, sand control is mixed with the reverse osmosis dose of material by following components in above-mentioned steps A It constitutes:

The hydroxymethyl cellulose of 4.5-5.5 parts by weight, the urea of 4.5-5.5 parts by weight, the carbon of 1.8-2.2 parts by weight Sour hydrogen ammonium, the sodium bicarbonate of 1.8-2.2 parts by weight, the sodium benzoate of 2.8-3.2 parts by weight, the polypropylene of 18-22 parts by weight Amide, the ammonium polyphosphate of 2.8-3.2 parts by weight, the Sodium Polyacrylate of 9-11 parts by weight, the clay powder of 45-55 parts by weight；

It is that the sand controls of 1 parts by weight is mixed into the local sand according to 20-30 parts by weight with reverse osmosis in the step B The sand control that step A is obtained is uniformly mixed with reverse osmosis dose with the local sand of 60 mesh, obtains sand control reverse osmosis by the ratio of agent It is thoroughly husky.

As a further improvement of the present invention, sand control is mixed with the reverse osmosis dose of material by following components in above-mentioned steps A It constitutes:

The hydroxymethyl cellulose of 5 parts by weight, the urea of 5 parts by weight, the ammonium hydrogen carbonate of 2 parts by weight, the bicarbonate of 2 parts by weight Sodium, the sodium benzoate of 3 parts by weight, the polyacrylamide of 20 parts by weight, the ammonium polyphosphate of 3 parts by weight, the polypropylene of 10 parts by weight Sour sodium, the clay powder of 50 parts by weight.

As a further improvement of the present invention, above-mentioned steps D middle peasant, woods plant growth sand bed for rice cultivation, herbage, Corn, potato, sweet potato or trees.

As a further improvement of the present invention, in above-mentioned steps C the reverse osmosis sand bed of sand control with a thickness of 60-150mm； The step D middle peasant, woods plant growth sand bed with a thickness of 200-1200mm.

As a further improvement of the present invention, in above-mentioned steps C the reverse osmosis sand bed of sand control with a thickness of 80-120mm； The step D middle peasant, woods plant growth sand bed with a thickness of 300-800mm.

Sand control of the invention is with reverse osmosis dose and utilizes the sand control method of reverse osmosis dose of desert, uses the present invention Exclusive sand control is with reverse osmosis dose, according to being mixed into the ratio of the sand controls of 1 parts by weight with reverse osmosis dose in 40 parts by weight sand below Example, the sand control that step A is obtained is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, the reverse osmosis sand bed of acquired sand control can Generate do not allow water penetration to pass through, but allow the root of plant can grow across unique property so that utilization of the invention is controlled The method of reverse osmosis dose of desert of sand can be used to plant the very flourishing desert of the root system developments such as sea-buckthorn, red building, diversiform-leaved poplar Ambient growth plant, while can be used for the crops such as rice cultivation, herbage, corn, potato, sweet potato, due to sand control reverse osmosis Saturating sand bed will not block ground vapour, therefore the plant planted using the present invention is in growth and development without limitation on the development of root system of plant Aspect is very good, is much better than the technology of the laying plastic below sand.After experiment shows the plantation by many years, due in sand The ingredients such as a large amount of plant roots and stems can be accumulated in son, the present invention can not only significantly alter the soil property in plantation soil, improve The content and fertility of organic matter in soil increase the crumb structure in soil property, and the beneficial micro- life promoted in soil also can be improved The viable counts of object.It has to be emphasized that of the invention can be very flourishing for planting the root system developments such as sea-buckthorn, red building, diversiform-leaved poplar The advantages of desert Environment growing plant is to solve those skilled in the art's unsolved technical problem always. Therefore, sand control of the invention undoubtedly has reality outstanding with reverse osmosis dose and using the method for reverse osmosis dose of desert of sand control Matter feature and significant progress.

Claims (9)

1. sand control is with reverse osmosis dose, it is characterised in that the sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 4-6 parts by weight, the urea of 4-6 parts by weight, the ammonium hydrogen carbonate of 1.5-2.5 parts by weight, 1.5- The sodium bicarbonate of 2.5 parts by weight, the sodium benzoate of 2.5-3.5 parts by weight, the polyacrylamide of 6-24 parts by weight, 2.5-3.5 The ammonium polyphosphate of parts by weight, the Sodium Polyacrylate of 8-12 parts by weight, the clay powder of 40-60 parts by weight；

The material stirring of above-mentioned parts by weight is uniformly mixed to get sand control is arrived with reverse osmosis dose.

2. sand control according to claim 1 is with reverse osmosis dose, it is characterised in that: the sand control is with reverse osmosis dose by with the following group The material divided, which mixes, to be constituted:

The hydroxymethyl cellulose of 4.5-5.5 parts by weight, the urea of 4.5-5.5 parts by weight, the bicarbonate of 1.8-2.2 parts by weight Ammonium, the sodium bicarbonate of 1.8-2.2 parts by weight, the sodium benzoate of 2.8-3.2 parts by weight, the polyacrylamide of 18-22 parts by weight Amine, the ammonium polyphosphate of 2.8-3.2 parts by weight, the Sodium Polyacrylate of 9-11 parts by weight, the clay powder of 45-55 parts by weight.

3. sand control according to claim 2 is with reverse osmosis dose, it is characterised in that: the sand control is with reverse osmosis dose by with the following group The material divided, which mixes, to be constituted:

The hydroxymethyl cellulose of 5 parts by weight, the urea of 5 parts by weight, the ammonium hydrogen carbonate of 2 parts by weight, the sodium bicarbonate of 2 parts by weight, 3 The sodium benzoate of parts by weight, the polyacrylamide of 20 parts by weight, the ammonium polyphosphate of 3 parts by weight, the Sodium Polyacrylate of 10 parts by weight, The clay powder of 50 parts by weight.

4. utilizing the method for reverse osmosis dose of desert of sand control, it is characterised in that include the following steps:

A, sand control is prepared with reverse osmosis dose, and sand control is made of with reverse osmosis dose the mixing of the material of following components:

The hydroxymethyl cellulose of 4-6 parts by weight, the urea of 4-6 parts by weight, the ammonium hydrogen carbonate of 1.5-2.5 parts by weight, 1.5- The sodium bicarbonate of 2.5 parts by weight, the sodium benzoate of 2.5-3.5 parts by weight, the polyacrylamide of 6-24 parts by weight, 2.5-3.5 The ammonium polyphosphate of parts by weight, the Sodium Polyacrylate of 8-12 parts by weight, the clay powder of 40-60 parts by weight；

B, according to reverse osmosis dose of the ratio of sand control for being mixed into 1 parts by weight in 40 parts by weight sand below, step A is obtained Sand control is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, obtains sand control with reverse osmosis sand；

C, it is laid with the reverse osmosis sand of sand control that one layer of step B is obtained on the surface in desert, sand control is big with the thickness of reverse osmosis sand bed In 50mm；

D, layer overlay sand is needed according to what the agriculture of plantation, woods crop root were grown in the top of the reverse osmosis sand bed of sand control, Constitute agriculture, woods plant growth sand bed.

5. according to claim 4 utilize the sand control method of reverse osmosis dose of desert, it is characterised in that: the step Sand control is made of with reverse osmosis dose the mixing of the material of following components in A:

The hydroxymethyl cellulose of 4.5-5.5 parts by weight, the urea of 4.5-5.5 parts by weight, the bicarbonate of 1.8-2.2 parts by weight Ammonium, the sodium bicarbonate of 1.8-2.2 parts by weight, the sodium benzoate of 2.8-3.2 parts by weight, the polyacrylamide of 18-22 parts by weight Amine, the ammonium polyphosphate of 2.8-3.2 parts by weight, the Sodium Polyacrylate of 9-11 parts by weight, the clay powder of 45-55 parts by weight；

It is reverse osmosis dose of the ratio of sand control that 1 parts by weight are mixed into the sand according to 20-30 parts by weight in the step B, it will The sand control that step A is obtained is uniformly mixed with reverse osmosis dose with the sand of 60 mesh, obtains sand control with reverse osmosis sand.

6. according to claim 5 utilize the sand control method of reverse osmosis dose of desert, it is characterised in that: the step Sand control is made of with reverse osmosis dose the mixing of the material of following components in A:

The hydroxymethyl cellulose of 5 parts by weight, the urea of 5 parts by weight, the ammonium hydrogen carbonate of 2 parts by weight, the sodium bicarbonate of 2 parts by weight, 3 The sodium benzoate of parts by weight, the polyacrylamide of 20 parts by weight, the ammonium polyphosphate of 3 parts by weight, the Sodium Polyacrylate of 10 parts by weight, The clay powder of 50 parts by weight.

7. utilizing the sand control method of reverse osmosis dose of desert according to claim 4 or 5 or 6, it is characterised in that: institute Step D middle peasant, woods plant growth sand bed are stated for rice cultivation, herbage, corn, potato, sweet potato or sea-buckthorn, red building, diversiform-leaved poplar.

8. according to claim 7 utilize the sand control method of reverse osmosis dose of desert, it is characterised in that: the step The reverse osmosis sand bed of sand control with a thickness of 60-150mm in C；The step D middle peasant, woods plant growth sand bed with a thickness of 200—1200mm。

9. according to claim 8 utilize the sand control method of reverse osmosis dose of desert, it is characterised in that: the step The reverse osmosis sand bed of sand control with a thickness of 80-120mm in C；The step D middle peasant, woods plant growth sand bed with a thickness of 300—800mm。