CN101698622A - Slow-release compound fertilizer special for serotinous mandarin orange - Google Patents
Slow-release compound fertilizer special for serotinous mandarin orange Download PDFInfo
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- CN101698622A CN101698622A CN200910191483A CN200910191483A CN101698622A CN 101698622 A CN101698622 A CN 101698622A CN 200910191483 A CN200910191483 A CN 200910191483A CN 200910191483 A CN200910191483 A CN 200910191483A CN 101698622 A CN101698622 A CN 101698622A
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Abstract
The invention relates to a slow-release compound fertilizer special for serotinous mandarin orange. The slow-release compound fertilizer is divided into A-type fertilizer, B-type fertilizer and C-type fertilizer and contains nitrogen, phosphorus, kalium, sulphur, calcium, magnesium, boron, zinc, iron and other nutrients, wherein the total amount of nitrogen, phosphorus and kalium is more than or equal to 30 percent; the amount of organic matter is more than or equal to 15 percent; the organic nutrients and the inorganic nutrients are reasonably matched and can meet the requirements of different growth and development stages of the serotinous mandarin orange and final excellent quality and high yield of fruits. The slow-release compound fertilizer has long nutrient release period and prolongs the release time by more than 60 days compared with a chemical fertilizer, is in particular suitable to be applied in the serotinous mandarin orange, can improve a soil structure and greatly increase the utilization rate of the fertilizer. The slow-release compound fertilizer has wide source of adopted raw materials, simple product manufacturing process and little equipment investment.
Description
Technical field
The present invention relates to technical field of agricultural fertilizers, particularly relate to a class slow-release compound fertilizer special for serotinous mandarin orange.
Background technology
China's citrus accounts for 75% in the medium variety of ripe listing of the 11-12 month at present, and the early maturing variety that the 9-10 month goes on the market accounts for 20%, and the late variety after December only accounts for about 5%, and the annual 3-9 month is the neutral gear of the self-produced citrus of China.Therefore, can avoid the peak hour that the citrus late variety of listing lacks is that China's citrus industry faces for a long time, needs to be resolved hurrily and unsolved major issue.
Citrus is evergreen fruit trees, several times a year takes out the tip, and vegetative period is long, and result quantities is big, and fertilizer requirement is big, and its total fertilizer requirement is equivalent to about the twice of deciduous fruit tree.For a long time, citrus is planted and is adopted repeatedly mode of administration of traditional phosphate fertilizer, common composite fertilizer and a small amount of urea combination always, and the balance of nutritive element, the innocuousness of fertilizer quality are also paid attention to inadequately.Fallen leaves in winter, preharvest drop problem that cultivation management technology falls behind due to the especially nutrient supply imbalance are the major reasons that late-maturing citrus is difficult to develop.Still there is not the nuisanceless long-acting specific composite fertilizer material that is fit to late-maturing citrus growth characteristic and improves nutritional quality at present on the domestic market.Therefore, according to the nutrient environment condition of late-maturing citrus growth, development and science are used the citrus compound fertilizer special of the compound slow release type of organic-inorganic, are late-maturing citrus standardized cultivation of China and assurance product high yield, high-quality, nutrition, safe pressing for.
Summary of the invention
The present invention aims to provide a class can be according to the nutrient demand characteristics of late-maturing citrus fruit picking phase (the 3-5 month), strong fruit phase (the 7-9 month) and bud phase in spring (the 2-3 month), whole process satisfies the special-purpose serial slow-release compound fertilizer of the late-maturing citrus based on the high-quality organic fertilizer of late-maturing citrus nutritional need, problems such as fertilizer quality in the late-maturing mandarin orange planting is lower to solve, the winter fallen leaves of nutrient structure due to uneven, preharvest drop, and then guarantee late-maturing citrus high-quality, stable yields and high yield.
The special-purpose serial slow-release compound fertilizer of late-maturing citrus of the present invention divides A, B, C type, is fit to respectively use in late-maturing citrus fruit picking phase, strong fruit phase and three periods of bud phase in spring.
A type fertilizer is made up of each following component of mass percent: urea 16%~18%, primary ammonium phosphate 6%~7%, vitriolate of tartar 15%~16%, potassium primary phosphate 5%~6%, ammonium sulfate 8%~9%, two cyanogen ammonium 1%~2%, thiocarbamide 1%~2%, boric acid 1%, zinc sulfate 0.5%, sal epsom 1%, ammonium molybdate 0.5%, rapeseed meal 15%~18%, the paulownia dregs of rice 3%~5%, feather meal 9%~13%, bone meal 4%~5%, zeolite 5%;
Type B fertilizer is made up of each following component of mass percent: urea 9%~10%, primary ammonium phosphate 7%~8%, vitriolate of tartar 12%~13%, potassium primary phosphate 10%~12%, ammonium sulfate 8%~9%, two cyanogen ammonium 2%, thiocarbamide 2%~3%, boric acid 1%, zinc sulfate 0.5%, sal epsom 1%, ammonium molybdate 0.5%, rapeseed meal 15%~17%, the paulownia dregs of rice 4%~5%, dregs of beans 11%~13%, bone meal 6%~8%, zeolite 5%;
C type fertilizer is made up of each following component of mass percent: urea 17%~18%, primary ammonium phosphate 7%~9%, vitriolate of tartar 11%~12%, potassium primary phosphate 6%~8%, ammonium sulfate 8%~9%, two cyanogen ammonium 2%, thiocarbamide 2%, boric acid 1%, zinc sulfate 1%, sal epsom 0.5%, ammonium molybdate 0.5%, rapeseed meal 14%~16%, the paulownia dregs of rice 3%~5%, dregs of beans 5%~9%, bone meal 8%~9%, zeolite 5%~8%.
The A type is a fruit picking fertilizer, the low-phosphorous type of potassium in the high nitrogen, N: P
2O
5: K
2O=14: 7: 10, organic 15%~17%; Used in 5-7 days after the fruit picking, purpose is being recovered tree vigo(u)r.
Type B is strong fruit fruit retention fertilizer, nitrogen phosphorus potassium balance type, N: P
2O
5: K
2O=11: 10: 10, organic 23%~25%; Use 8~September, has fruit retention and promote autumn growth to extract out and the bud differentiation effect.
The C type is a spring bud fertilizer, the low-phosphorous potassium type of high nitrogen, N: P
2O
5: K
2O=14: 8: 8, organic 19%~21%; The spring bud is extracted preceding (January) 10~15 days out and is used, and purpose is promoting that spring tip growth and flower bud development are good.
The requirement of A, B, C type fertilizer material is: urea contains N 〉=46%, and primary ammonium phosphate contains N 〉=15%, P
2O
5〉=40%, potassium primary phosphate contains P
2O
5〉=49%, K
2O 〉=32%, vitriolate of tartar contains K
2O 〉=50%, ammonium sulfate contains N 〉=21%, and two cyanogen ammoniums contain N 〉=66%, thiocarbamide and contain N 〉=31%, boric acid and contain B 〉=17%, sal epsom and contain that Mg 〉=9.5%, zinc sulfate contain Zn 〉=18%, ammonium molybdate contains Mo 〉=49%, rapeseed meal particle≤0.4mm, paulownia dregs of rice particle≤0.4mm, dregs of beans particle≤0.4mm, feather meal particle≤0.4mm, zeolite granular≤0.25mm.
The manufacture method of the special-purpose serial slow-release compound fertilizer of late-maturing citrus of the present invention is as follows:
Urea, primary ammonium phosphate, vitriolate of tartar, potassium primary phosphate, ammonium sulfate, ammonium molybdate, zinc sulfate, sal epsom, boric acid, two cyanogen ammonium, thiocarbamide and zeolite mixing with respective quality per-cent, the organic double compound that adds rapeseed meal, the paulownia dregs of rice and dregs of beans or feather meal then through effectuation and harmless treatment, fully stirring and evenly mixing is processed granulation and is promptly got the special-purpose serial slow-release compound fertilizer product of late-maturing citrus.
The effectuation and the method for innocent treatment of rapeseed meal, the paulownia dregs of rice and dregs of beans or feather meal are: the mixture drying and crushing of rapeseed meal, the paulownia dregs of rice, dregs of beans or the feather meal and the bone meal of respective quality per-cent to particle≤0.4mm, is added the H of 3mol/L successively
2SO
4HNO with 2mol/L
3, the H of the 3mol/L of adding
2SO
4HNO with 2mol/L
3Mass ratio be 2: 1, and make rapeseed meal, the paulownia dregs of rice, dregs of beans or feather meal mixture with add acid solution mass ratio be 1: 0.6, stir, effect is 48 hours under 50 ℃~60 ℃ conditions, get 100 parts of quality of reactant, add 5~6 parts of abundant mixings of lime powder of particle≤0.25mm, balance is 24 hours at normal temperatures, drying gets organic double compound.
The special-purpose serial slow-release compound fertilizer of late-maturing citrus provided by the invention contains nutrients such as nitrogen, phosphorus, potassium, sulphur, calcium, magnesium, boron, zinc, iron, nitrogen phosphorus potassium total nutrient 〉=30% wherein, organic 〉=15%.
Advantage of the present invention is:
1, the special-purpose serial slow-release compound fertilizer of late-maturing citrus of the present invention, contain plant essential multiple macroelement and micronutrient element, especially enrich with nitrogen, phosphorus, potassium, sulphur nutrient content, can satisfy the needs of different growth and development stages of late-maturing citrus and the final good quality and high output of fruit.Test-results is found, can prevent effectively that phenomenons such as late-maturing citrus fallen leaves in winter, preharvest drop from occurring, volume increase 8.7%~16.5%, and qualities such as fruit morphology, color and luster, taste are obviously improved.
2, the special-purpose serial slow-release compound fertilizer raw material that production is adopted of late-maturing citrus of the present invention is mainly high-quality chemical fertilizer and high-quality organic fertilizer, does not contain the deleterious minor component of growth and development of plants; A, the B, the C type fertilizer organic content that are suitable for the different growth phases of late-maturing citrus have notable difference, but all are higher than 15%.Special-purpose serial slow-release compound fertilizer organic nutrient of late-maturing citrus and inorganic nutrients assembly are reasonable, and the nutrient slowly-released phase is long, discharge than the chemical fertilizer nutrient to prolong more than 60 days, are particularly suitable for late-maturing citrus and use, and the structure of improving the soil improves utilization rate of fertilizer greatly.
3, the raw material sources that adopt in the special-purpose serial slow-release compound fertilizer of late-maturing citrus of the present invention are extensive, and product manufacture is simple, and facility investment is less.
Embodiment
The fertile embodiment 1 of A type:
A. get urea 17kg, diammonium phosphate 6kg, vitriolate of tartar 16kg, potassium primary phosphate 6kg, ammonium sulfate 9kg, two cyanogen ammonium 2kg, thiocarbamide 1kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 18kg, feather meal 9kg, paulownia dregs of rice 3kg, bone meal 5kg add 3mol/LH in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 2 of A type:
A. get urea 18kg, diammonium phosphate 6kg, vitriolate of tartar 15kg, potassium primary phosphate 6kg, ammonium sulfate 8kg, two cyanogen ammonium 1kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 16kg, feather meal 11kg, paulownia dregs of rice 5kg, bone meal 4kg add 3mol/L H in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 3 of A type:
A. get urea 16kg, diammonium phosphate 6kg, vitriolate of tartar 15kg, potassium primary phosphate 6kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 1kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 16kg, feather meal 12kg, paulownia dregs of rice 4kg, bone meal 5kg add 3mol/L H in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 4 of A type:
A. get urea 17kg, diammonium phosphate 7kg, vitriolate of tartar 16kg, potassium primary phosphate 5kg, ammonium sulfate 8kg, two cyanogen ammonium 1kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 15kg, feather meal 13kg, paulownia dregs of rice 3kg, bone meal 5kg add 3mol/L H in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 1 of Type B:
A. get urea 9kg, diammonium phosphate 8kg, vitriolate of tartar 13kg, potassium primary phosphate 10kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 16kg, dregs of beans 11kg, paulownia dregs of rice 5kg, bone meal 8kg add 3mol/L H in reactor
2SO
416kg, 2mol/LHNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 2 of Type B:
A. get urea 10kg, diammonium phosphate 8kg, vitriolate of tartar 12kg, potassium primary phosphate 11kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 17kg, dregs of beans 11kg, paulownia dregs of rice 4kg, bone meal 7kg add 3mol/LH in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 3 of Type B:
A. get urea 9kg, diammonium phosphate 7kg, vitriolate of tartar 12kg, potassium primary phosphate 12kg, ammonium sulfate 9kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 15kg, dregs of beans 13kg, paulownia dregs of rice 5kg, bone meal 6kg add 3mol/L H in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 4 of Type B:
A. get urea 9kg, diammonium phosphate 8kg, vitriolate of tartar 13kg, potassium primary phosphate 10kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 3kg, boric acid 1kg, zinc sulfate 0.5kg, sal epsom 1kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 17kg, dregs of beans 12kg, paulownia dregs of rice 4kg, bone meal 6kg add 3mol/L H in reactor
2SO
416kg, 2mol/L HNO
38kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 1 of C type:
A. get urea 17kg, diammonium phosphate 8kg, vitriolate of tartar 12kg, potassium primary phosphate 7kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 1kg, sal epsom 0.5kg, ammonium molybdate 0.5kg adds zeolite 8kg, thorough mixing.
B. get rapeseed meal 15kg, dregs of beans 5kg, paulownia dregs of rice 5kg, bone meal 8kg add 3mol/L H in reactor
2SO
415kg, 2mol/LHNO
37kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 2 of C type:
A. get urea 18kg, diammonium phosphate 8kg, vitriolate of tartar 12kg, potassium primary phosphate 6kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 1kg, sal epsom 0.5kg, ammonium molybdate 0.5kg adds zeolite 5kg, thorough mixing.
B. get rapeseed meal 16kg, dregs of beans 7kg, paulownia dregs of rice 4kg, bone meal 9kg add 3mol/L H in reactor
2SO
415kg, 2mol/L HNO
37kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 3 of C type:
A. get urea 18kg, diammonium phosphate 9kg, vitriolate of tartar 12kg, potassium primary phosphate 6kg, ammonium sulfate 9kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 1kg, sal epsom 0.5kg, ammonium molybdate 0.5kg adds zeolite 6kg, thorough mixing.
B. get rapeseed meal 14kg, dregs of beans 7kg, paulownia dregs of rice 4kg, bone meal 8kg add 3mol/L H in reactor
28O
415kg, 2mol/L HNO
37kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
The fertile embodiment 4 of C type:
A. get urea 18kg, diammonium phosphate 7kg, vitriolate of tartar 11kg, potassium primary phosphate 8kg, ammonium sulfate 8kg, two cyanogen ammonium 2kg, thiocarbamide 2kg, boric acid 1kg, zinc sulfate 1kg, sal epsom 0.5kg, ammonium molybdate 0.5kg adds zeolite 6kg, thorough mixing.
B. get rapeseed meal 15kg, dregs of beans 9kg, paulownia dregs of rice 3kg, bone meal 8kg add 3mol/L H in reactor
2SO
415kg, 2mol/LHNO
37kg stirs, and acts on 48h under 50 ℃~60 ℃ conditions, adds lime powder 6kg, abundant mixing, balance 24h at normal temperatures, drying.
C. with a, b gained material thorough mixing, pulverizing is mixed thoroughly, granulation, and drying, packing gets final product.
Claims (2)
1. slow-release compound fertilizer special for serotinous mandarin orange divides A, B, C type fertilizer, it is characterized in that:
A type fertilizer is made up of each following component of mass percent: urea 16%~18%, primary ammonium phosphate 6%~7%, vitriolate of tartar 15%~16%, potassium primary phosphate 5%~6%, ammonium sulfate 8%~9%, two cyanogen ammonium 1%~2%, thiocarbamide 1%~2%, boric acid 1%, zinc sulfate 0.5%, sal epsom 1%, ammonium molybdate 0.5%, rapeseed meal 15%~18%, the paulownia dregs of rice 3%~5%, feather meal 9%~13%, bone meal 4%~5%, zeolite 5%;
Type B fertilizer is made up of each following component of mass percent: urea 9%~10%, primary ammonium phosphate 7%~8%, vitriolate of tartar 12%~13%, potassium primary phosphate 10%~12%, ammonium sulfate 8%~9%, two cyanogen ammonium 2%, thiocarbamide 2%~3%, boric acid 1%, zinc sulfate 0.5%, sal epsom 1%, ammonium molybdate 0.5%, rapeseed meal 15%~17%, the paulownia dregs of rice 4%~5%, dregs of beans 11%~13%, bone meal 6%~8%, zeolite 5%;
C type fertilizer is made up of each following component of mass percent: urea 17%~18%, primary ammonium phosphate 7%~9%, vitriolate of tartar 11%~12%, potassium primary phosphate 6%~8%, ammonium sulfate 8%~9%, two cyanogen ammonium 2%, thiocarbamide 2%, boric acid 1%, zinc sulfate 1%, sal epsom 0.5%, ammonium molybdate 0.5%, rapeseed meal 14%~16%, the paulownia dregs of rice 3%~5%, dregs of beans 5%~9%, bone meal 8%~9%, zeolite 5%~8%.
2. fertilizer according to claim 1 is characterized in that: urea contains N 〉=46%, and primary ammonium phosphate contains N 〉=15%, P
2O
5〉=40%, potassium primary phosphate contains P
2O
5〉=49%, K
2O 〉=32%, vitriolate of tartar contains K
2O 〉=50%, ammonium sulfate contains N 〉=21%, and two cyanogen ammoniums contain N 〉=66%, thiocarbamide and contain N 〉=31%, boric acid and contain B 〉=17%, sal epsom and contain that Mg 〉=9.5%, zinc sulfate contain Zn 〉=18%, ammonium molybdate contains Mo 〉=49%, rapeseed meal particle≤0.4mm, paulownia dregs of rice particle≤0.4mm, dregs of beans particle≤0.4mm, feather meal particle≤0.4mm, zeolite granular≤0.25mm.
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