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Views: 0 Author: Site Editor Publish Time: 2026-04-02 Origin: Site
Fertilizer formulations with high total nutrient content reduce application volumes and transportation costs while delivering balanced nutrition to crops. NPK 19-9-19 contains 19% nitrogen, 9% available phosphate, and 19% soluble potash, creating a total primary nutrient content of 47%. This high analysis formulation provides a ratio of approximately 2.1:1:2.1, offering balanced nutrition with slight emphasis on nitrogen and potassium over phosphorus. The product is suitable for a wide range of field crops, horticultural plantings, and perennial systems where nutrient density and application efficiency are priorities.
Hebei Wangdalei Trading Co., LTD supplies NPK 19-9-19 to agricultural operations, fertilizer distributors, and commercial growers. The following technical information is based on standard agronomic research, soil chemistry principles, and field trial data across multiple cropping systems.
The NPK designation represents the percentage by weight of total nitrogen (N), available phosphate (P₂O₅), and soluble potash (K₂O). In the 19-9-19 formulation:
Total nitrogen: 19% by weight
Available phosphate (P₂O₅): 9% by weight
Soluble potash (K₂O): 19% by weight
One metric ton of NPK 19-9-19 contains 190 kg of nitrogen, 90 kg of phosphate, and 190 kg of potash. The remaining 530 kg consists of carrier materials, secondary nutrients, and filler. The total primary nutrient content of 47% places this formulation in the high-analysis category, meaning less product weight is required per hectare compared to lower-analysis fertilizers.
The ratio of nitrogen to potassium oxide in this formulation is 19:19, which simplifies to 1:1. For every 1 unit of nitrogen, the fertilizer delivers 1 unit of potassium oxide. This equal ratio is characteristic of formulations designed for sustained nutrition across multiple growth stages.
Comparison with crop uptake ratios during mid to late season:
| Crop | N:K₂O Uptake Ratio (Mid to Late Season) |
|---|---|
| Corn (grain fill) | 1:0.9 to 1:1.1 |
| Wheat (grain development) | 1:1.0 to 1:1.2 |
| Soybean (pod fill) | 1:1.1 to 1:1.3 |
| Rice (grain filling) | 1:0.8 to 1:1.0 |
| Sorghum (grain development) | 1:0.9 to 1:1.1 |
The 1:1 ratio of NPK 19-9-19 matches the nitrogen to potassium uptake of cereal grains during grain fill. For high-potassium-demand crops such as potato and tomato, additional potassium from other sources is required.
The 9% phosphate content provides 90 kg P₂O₅ per metric ton. This is a moderate phosphorus level, positioned between low-phosphorus formulations (0% to 5% P₂O₅) and high-phosphorus starter fertilizers (15% to 20% P₂O₅). The phosphorus-to-nitrogen ratio is 9:19, or approximately 1:2.1.
The 9% phosphorus level is sufficient for maintenance applications on soils with adequate phosphorus reserves. On soils testing below 20 ppm Bray P1, additional phosphorus from a separate source may be required for high-yield production.
The 47% total primary nutrient content provides economic and logistical benefits:
Reduced transportation cost: One metric ton of NPK 19-9-19 delivers 470 kg of N+P₂O₅+K₂O. To deliver the same nutrient amount using a 15-15-15 formulation (45% total nutrients), 1,044 kg of product is required.
Lower storage requirement: A farming operation requiring 100 metric tons of nutrients annually would need 213 metric tons of 15-15-15 but only 200 metric tons of 19-9-19.
Fewer bags per hectare: At an application rate of 150 kg N per hectare, a grower applies 790 kg of 19-9-19 product compared to 1,000 kg of 15-15-15.
Commercial production of NPK 19-9-19 uses a combination of nitrogen carriers to achieve the 19% total nitrogen:
Urea (46% N): The primary nitrogen source in most formulations. Urea provides concentrated nitrogen and allows the high total nutrient content. A typical NPK 19-9-19 contains 300 to 350 kg of urea per metric ton.
Ammonium phosphate (11-52-0 or 18-46-0): Contributes both nitrogen and phosphorus. Using ammonium phosphate as part of the phosphorus source provides 15 to 25 kg of the total nitrogen per metric ton.
Ammonium sulfate (21% N): Used in some formulations to provide sulfur alongside nitrogen. Ammonium sulfate also lowers the pH of the fertilizer granule, reducing ammonia volatilization in high-pH soils.
The specific nitrogen source combination affects the nitrogen release pattern, acidifying potential, and cost per metric ton.
The 9% phosphate content requires approximately 170 kg of monoammonium phosphate (11-52-0) or 195 kg of diammonium phosphate (18-46-0) per metric ton of finished NPK 19-9-19.
Monoammonium phosphate (11-52-0): Provides a lower pH around the fertilizer granule (pH 4.0 to 4.5), which improves phosphorus availability in neutral and alkaline soils. This is the preferred phosphate source for NPK 19-9-19.
Diammonium phosphate (18-46-0): Provides a higher pH around the granule (pH 7.5 to 8.0), which can be beneficial in acid soils.
The choice of phosphate source affects the nitrogen-to-phosphorus ratio within the product and the pH reaction zone around each granule.
The 19% potassium oxide content requires approximately 315 kg of potassium chloride (60% K₂O) or 380 kg of potassium sulfate (50% K₂O) per metric ton of finished NPK 19-9-19.
Potassium chloride (muriate of potash): The standard potassium source due to its low cost and high concentration. Chloride content is approximately 150 kg per metric ton of NPK 19-9-19. This level is acceptable for most field crops but may affect chloride-sensitive crops.
Potassium sulfate (sulfate of potash): Used for chloride-sensitive crops or where additional sulfur is required. Potassium sulfate increases product cost by 15% to 25% compared to potassium chloride.
Standard NPK 19-9-19 uses potassium chloride unless a low-chloride specification is requested.
NPK 19-9-19 is manufactured as granular particles through steam granulation, melt granulation, or compaction processes. The high total nutrient content requires careful manufacturing to maintain granule integrity.
Typical granule specifications:
Diameter range: 2.0 to 4.0 mm
Granules in range: Minimum 90% by weight
Granule crushing strength: 3.0 to 4.0 kg force
Dust content: Maximum 0.8%
Fines (below 1 mm): Maximum 1.5%
The high analysis formulation produces granules with good hardness when manufactured properly. The presence of both urea and potassium chloride requires balanced formulation to prevent granule softening during storage.
The bulk density of granular NPK 19-9-19 ranges from 0.95 to 1.10 g/cm³. This density is typical for high-analysis compound fertilizers.
Flow properties:
Angle of repose: 29 to 33 degrees
Compressibility index: 11% to 16%
Hausner ratio: 1.12 to 1.19
The angle of repose is moderate, indicating good flowability. Standard fertilizer spreaders with basic hopper designs handle NPK 19-9-19 without significant bridging. The low dust content reduces airborne losses during handling and application.
NPK 19-9-19 has moderate to high solubility depending on the specific salt composition. Solubility in water at different temperatures:
| Temperature | Solubility |
|---|---|
| 10°C | 160 g per liter |
| 20°C | 200 g per liter |
| 30°C | 250 g per liter |
Dissolution time for a single granule in static water at 20°C ranges from 7 to 12 minutes. In agitated water or irrigation systems, complete dissolution occurs within 3 to 5 minutes.
The electrical conductivity of a 1 g/L solution of NPK 19-9-19 measures 1.5 to 1.9 dS/m. At the maximum dissolution concentration of 200 g/L, the electrical conductivity reaches 300 to 380 dS/m. This salinity level requires dilution for fertigation applications to avoid root damage.
NPK 19-9-19 has moderate hygroscopicity due to its urea and potassium chloride content. Moisture absorption rates at 25°C and 70% relative humidity:
First 24 hours: 0.4% to 0.7% weight gain
First week: 1.2% to 1.8% weight gain
First month: 2.0% to 3.0% weight gain
Caking potential is moderate. Recommended storage conditions:
| Parameter | Recommended Range |
|---|---|
| Relative humidity | Below 60% |
| Temperature | 5°C to 35°C |
| Stack height (paper bags) | Maximum 1.4 meters |
| Stack height (woven bags) | Maximum 1.9 meters |
| Pallet spacing | Minimum 12 cm between stacks |
Under proper storage conditions, NPK 19-9-19 maintains physical integrity for 15 to 20 months. Anticaking agents at 0.5% to 0.8% of product weight provide adequate protection for most storage durations.
NPK 19-9-19 has moderate corrosivity due to its chloride content. Carbon steel equipment with epoxy or powder-coated finishes is acceptable for short-term contact. For long-term storage bins, conveyor systems, and fertigation equipment, stainless steel (304 or 316 grade) or plastic-lined equipment is recommended.
The nitrogen in NPK 19-9-19 follows standard transformation pathways:
Urea hydrolysis: If the formulation contains urea, soil urease converts urea to ammonium carbonate. The hydrolysis rate depends on soil temperature and moisture:
At 15°C: 50% conversion in 5 to 7 days
At 25°C: 50% conversion in 2 to 3 days
Hydrolysis raises soil pH locally by 0.5 to 1.0 units. This temporary pH increase can enhance phosphorus availability in acid soils.
Nitrification: Soil bacteria convert ammonium to nitrate. The process takes 10 to 21 days at 20°C. Each kilogram of nitrogen nitrified generates 3.6 kg of calcium carbonate equivalent acidity.
Ammonia volatilization: Surface application without incorporation leads to losses:
Day 3: 4% to 9% loss
Day 7: 8% to 16% loss
Day 14: 10% to 19% loss
Incorporation within 24 hours reduces losses to below 4%. Rainfall of 10 mm within 48 hours also reduces losses substantially.
The 9% phosphate component undergoes reactions that affect availability:
Acid soils (pH below 5.5): Phosphorus reacts with aluminum and iron to form insoluble aluminum phosphate and iron phosphate. Availability ranges from 10% to 20% in the year of application.
Neutral soils (pH 6.0 to 7.0): Phosphorus availability is highest in this pH range. Availability ranges from 25% to 40% in the year of application.
Alkaline soils (pH above 7.5): Phosphorus reacts with calcium to form insoluble calcium phosphates. Availability drops to 10% to 20%.
Band placement effect: Placing phosphorus in a band rather than broadcasting increases availability because the high concentration of phosphate in the band temporarily saturates fixation sites. Banding increases phosphorus use efficiency by 50% to 100% compared to broadcasting.
The 19% potassium component supplies K⁺ ions to soil solution. Potassium reactions:
Exchangeable potassium: K⁺ ions bind to cation exchange sites on clay minerals and organic matter. The percentage of applied potassium that becomes exchangeable depends on soil cation exchange capacity:
Sandy soil (CEC 5 cmol/kg): 70% to 85% exchangeable
Loam soil (CEC 15 cmol/kg): 50% to 70% exchangeable
Clay soil (CEC 25 cmol/kg): 40% to 60% exchangeable
Fixation: In soils containing illite or vermiculite clays, potassium becomes trapped between clay layers. Fixation can remove 10% to 25% of applied potassium in high-fixation soils.
Leaching: Potassium leaching is minimal in soils with cation exchange capacity above 10 cmol/kg. In sandy soils with CEC below 5 cmol/kg, 10% to 20% of applied potassium may leach with heavy rainfall.
The salt index of NPK 19-9-19 is calculated from its component salts:
| Component | Partial Salt Index |
|---|---|
| Urea | 75 |
| Potassium chloride | 116 |
| Monoammonium phosphate | 30 |
The blended salt index of NPK 19-9-19 is approximately 80 to 90. This is similar to the salt index of other balanced compound fertilizers.
Seed-placed application safety:
Corn: 120 to 170 kg product per hectare in the seed furrow
Wheat: 80 to 110 kg product per hectare in the seed furrow
Soybean: 70 to 90 kg product per hectare in the seed furrow
Canola: 40 to 60 kg product per hectare in the seed furrow
Higher rates cause osmotic damage to germinating seeds, reducing stand establishment by 10% to 25%.
NPK 19-9-19 has a net acidifying effect due to nitrification of ammonium nitrogen. Each 100 kg of applied nitrogen generates approximately 3.6 kg of calcium carbonate equivalent acidity.
For a typical application of 530 kg product per hectare (approximately 100 kg N per hectare), annual acidification is 360 kg CaCO₃ equivalent per hectare.
Over five years at this rate, soil pH may decline by 0.2 to 0.5 units in moderately buffered soils. Soil testing every two to three years is recommended. When pH falls below 5.5, lime application at 1 to 3 metric tons per hectare may be required.
Corn requires balanced nutrition throughout the growing season. NPK 19-9-19 provides nitrogen, phosphorus, and potassium in proportions suitable for mid-season application. The high nutrient density reduces the product volume needed per hectare.
Full-season corn program (12 metric ton per hectare yield target):
Pre-plant incorporated: 250 kg product per hectare (47.5 kg N, 22.5 kg P₂O₅, 47.5 kg K₂O)
Sidedress at V6: 350 kg product per hectare (66.5 kg N, 31.5 kg P₂O₅, 66.5 kg K₂O)
Total: 600 kg product per hectare (114 kg N, 54 kg P₂O₅, 114 kg K₂O)
Additional nitrogen as urea or UAN is required to reach the full nitrogen requirement of 180 to 220 kg N per hectare. The NPK 19-9-19 provides the phosphorus and potassium base while supplying a portion of the nitrogen.
Starter fertilizer program (corn):
Banded 5 cm below and 5 cm to the side of the seed
Application rate: 150 kg product per hectare
Nutrients supplied: 28.5 kg N, 13.5 kg P₂O₅, 28.5 kg K₂O per hectare
Starter fertilizer with NPK 19-9-19 increases early season growth and advances silking by 2 to 4 days compared to untreated fields.
Winter wheat and spring wheat benefit from balanced nutrition at planting and during tillering. The 1:1 nitrogen to potassium ratio matches wheat uptake during grain development.
Winter wheat program (6 metric ton per hectare yield target):
At planting: 300 kg product per hectare (57 kg N, 27 kg P₂O₅, 57 kg K₂O)
Green-up in spring: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Total: 500 kg product per hectare (95 kg N, 45 kg P₂O₅, 95 kg K₂O)
Spring wheat program:
At planting: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Tillering: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Total: 400 kg product per hectare (76 kg N, 36 kg P₂O₅, 76 kg K₂O)
Additional nitrogen at stem elongation (40 to 60 kg N per hectare) is required to reach full yield potential.
Paddy rice requires careful nutrient management due to flooded conditions. NPK 19-9-19 can be used in split applications. The high nutrient density reduces the number of bags carried into paddy fields.
Rice program (7 metric ton per hectare yield target):
At transplanting: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Tillering: 180 kg product per hectare (34.2 kg N, 16.2 kg P₂O₅, 34.2 kg K₂O)
Panicle initiation: 120 kg product per hectare (22.8 kg N, 10.8 kg P₂O₅, 22.8 kg K₂O)
Total: 500 kg product per hectare (95 kg N, 45 kg P₂O₅, 95 kg K₂O)
Additional nitrogen as urea is applied at panicle initiation to reach total nitrogen requirement of 120 to 150 kg N per hectare. Deep placement of fertilizer prills reduces nitrogen loss by 20% to 30% compared to broadcast application.
Soybean is a legume that fixes atmospheric nitrogen. Direct nitrogen application to soybean is generally not recommended. However, a small amount of starter nitrogen can benefit early growth on low-fertility soils.
Soybean program (low-fertility soils):
Banded at planting: 80 to 120 kg product per hectare
Nutrients supplied: 15.2 to 22.8 kg N, 7.2 to 10.8 kg P₂O₅, 15.2 to 22.8 kg K₂O per hectare
The phosphorus and potassium components of NPK 19-9-19 are the primary benefits for soybean. On soils testing above 25 ppm Bray P1 and 150 ppm K, no fertilizer is typically required.
Sorghum has similar nutrient requirements to corn but with slightly lower nitrogen demand. NPK 19-9-19 is suitable for sorghum production.
Sorghum program (5 metric ton per hectare yield target):
Pre-plant incorporated: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Sidedress at 30 cm height: 300 kg product per hectare (57 kg N, 27 kg P₂O₅, 57 kg K₂O)
Total: 500 kg product per hectare (95 kg N, 45 kg P₂O₅, 95 kg K₂O)
Additional nitrogen as urea at boot stage (30 to 40 kg N per hectare) completes the nitrogen requirement.
Potato requires higher potassium than nitrogen during tuber bulking. NPK 19-9-19 provides a 1:1 ratio, which supplies less potassium relative to nitrogen than potato requires.
Potato program (50 metric ton per hectare yield target):
At planting (banded): 350 kg product per hectare (66.5 kg N, 31.5 kg P₂O₅, 66.5 kg K₂O)
At hilling: 250 kg product per hectare (47.5 kg N, 22.5 kg P₂O₅, 47.5 kg K₂O)
Total: 600 kg product per hectare (114 kg N, 54 kg P₂O₅, 114 kg K₂O)
Additional potassium is required to reach the potato requirement of 250 to 350 kg K₂O per hectare. Potassium sulfate at 200 to 300 kg per hectare is applied during tuber bulking. The NPK 19-9-19 supplies the phosphorus requirement and a portion of the nitrogen and potassium.
Tomato: Processing tomatoes require higher potassium than nitrogen during fruit ripening. NPK 19-9-19 can be used for early to mid-season applications, but a higher-potassium formulation is preferred for late-season use.
Tomato program:
At transplanting: 250 kg product per hectare (47.5 kg N, 22.5 kg P₂O₅, 47.5 kg K₂O)
First flowering: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Total: 450 kg product per hectare (85.5 kg N, 40.5 kg P₂O₅, 85.5 kg K₂O)
Cabbage and leafy greens: These crops have high nitrogen demand. NPK 19-9-19 at 450 to 550 kg product per hectare broadcast before planting supplies 85.5 to 104.5 kg N, 40.5 to 49.5 kg P₂O₅, and 85.5 to 104.5 kg K₂O per hectare.
Onion and garlic: Allium crops require moderate nitrogen and phosphorus with higher potassium. NPK 19-9-19 at 350 kg product per hectare at planting supplies 66.5 kg N, 31.5 kg P₂O₅, and 66.5 kg K₂O. Additional potassium is applied at bulb initiation.
Apple orchards: Mature apple trees require moderate nitrogen and higher potassium. NPK 19-9-19 at 350 to 450 kg product per hectare in early spring supplies 66.5 to 85.5 kg N, 31.5 to 40.5 kg P₂O₅, and 66.5 to 85.5 kg K₂O per hectare. Additional potassium is applied after petal fall for fruit sizing.
Grapevines: Wine grapes require moderate nitrogen and higher potassium. NPK 19-9-19 at 250 to 350 kg product per hectare at bud break supplies 47.5 to 66.5 kg N, 22.5 to 31.5 kg P₂O₅, and 47.5 to 66.5 kg K₂O per hectare. For wine grapes, total nitrogen should not exceed 90 kg N per hectare to prevent excessive canopy growth.
Citrus: Orange and lemon trees require balanced nutrition. NPK 19-9-19 at 450 to 600 kg product per hectare split between post-harvest and spring flush supplies 85.5 to 114 kg N, 40.5 to 54 kg P₂O₅, and 85.5 to 114 kg K₂O per hectare.
Banana: Banana has high potassium demand. NPK 19-9-19 at 400 to 500 kg product per hectare at bunch initiation supplies 76 to 95 kg N, 36 to 45 kg P₂O₅, and 76 to 95 kg K₂O. Additional potassium as potassium chloride or potassium sulfate is required to meet the total potassium demand of 400 to 600 kg K₂O per hectare.
Broadcast application is suitable for pre-plant and topdress use of NPK 19-9-19. Spinner spreaders with dual discs achieve spreading widths of 12 to 24 meters.
Calibration parameters:
Gate opening: 10 to 15 mm for 400 kg/ha application rate
Disc speed: 650 to 800 RPM
Ground speed: 8 to 15 km/h
The coefficient of variation for well-calibrated spreaders should be below 15%. The good flow characteristics of NPK 19-9-19 allow for consistent distribution across the full swath width.
Band placement is recommended for NPK 19-9-19 because phosphorus has low mobility in soil. Placing fertilizer in bands near the root zone increases phosphorus uptake efficiency by 50% to 100%.
Band configurations:
Row crop banding: 5 cm below and 5 cm to the side of the seed row. Safe band rate: 200 kg product per hectare.
Starter band: 2.5 cm below and 2.5 cm to the side of the seed. Safe band rate: 120 kg product per hectare.
Deep banding (no-till): 15 to 20 cm deep. Rate: 350 to 500 kg product per hectare.
Sidedressing places NPK 19-9-19 alongside growing crops 3 to 6 weeks after emergence. This timing supplies nutrients during rapid vegetative growth.
Sidedressing rates:
Corn at V4 to V6: 300 to 400 kg product per hectare
Wheat at tillering: 150 to 250 kg product per hectare
Sugarcane at 4 to 6 leaf stage: 400 to 600 kg product per hectare
NPK 19-9-19 is soluble enough for use in drip, sprinkler, or center pivot irrigation systems, provided the product is fully dissolved before injection.
Fertigation guidelines:
Maximum concentration in irrigation water: 2 g per liter
For a drip system delivering 30,000 L/ha per event: maximum 60 kg product per hectare per event
Filtration: 200 mesh screen recommended
Injection method: Venturi injectors or piston pumps are suitable. The fertilizer solution should be agitated continuously to prevent settling. After injection, flush the irrigation system with clean water for 20 to 30 minutes.
Surface-applied NPK 19-9-19 loses nitrogen through ammonia volatilization. Incorporation methods and their effectiveness:
| Incorporation Method | Time Window | Volatilization Loss Reduction |
|---|---|---|
| Rainfall 10-15 mm | Within 48 hours | Reduces loss from 16% to 5% |
| Disc harrow (5-8 cm depth) | Within 24 hours | Reduces loss from 16% to 3% |
| Cultivator (5-10 cm depth) | Within 12 hours | Reduces loss from 16% to 2% |
For no-till systems, applying NPK 19-9-19 immediately before forecast rainfall of at least 10 mm is the standard practice for loss reduction.
Pre-plant application of NPK 19-9-19 is appropriate for the phosphorus component, which requires incorporation to reach the root zone. For most annual crops, 30% to 50% of total NPK 19-9-19 is applied pre-plant.
Starter application places a small amount of NPK 19-9-19 in close proximity to the seed at planting. Starter benefits are greatest under cool soil conditions (below 15°C) and on soils with low phosphorus availability.
Starter rates for corn: 120 to 170 kg product per hectare. Starter rates for wheat: 80 to 110 kg product per hectare.
Sidedress application supplies nutrients during the period of rapid crop uptake. For most annual crops, 40% to 60% of total NPK 19-9-19 is applied as sidedress.
Corn (12 metric ton per hectare yield target):
Pre-plant incorporated: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Starter at planting: 120 kg product per hectare (22.8 kg N, 10.8 kg P₂O₅, 22.8 kg K₂O)
Sidedress at V6: 280 kg product per hectare (53.2 kg N, 25.2 kg P₂O₅, 53.2 kg K₂O)
Total: 600 kg product per hectare (114 kg N, 54 kg P₂O₅, 114 kg K₂O)
Additional N as urea at V8: 60 kg N per hectare
Winter wheat (6 metric ton per hectare yield target):
At planting: 300 kg product per hectare (57 kg N, 27 kg P₂O₅, 57 kg K₂O)
Green-up: 200 kg product per hectare (38 kg N, 18 kg P₂O₅, 38 kg K₂O)
Total: 500 kg product per hectare (95 kg N, 45 kg P₂O₅, 95 kg K₂O)
Additional N as urea at stem elongation: 40 kg N per hectare
Potato (50 metric ton per hectare yield target):
At planting (banded): 350 kg product per hectare (66.5 kg N, 31.5 kg P₂O₅, 66.5 kg K₂O)
At hilling: 250 kg product per hectare (47.5 kg N, 22.5 kg P₂O₅, 47.5 kg K₂O)
Total: 600 kg product per hectare (114 kg N, 54 kg P₂O₅, 114 kg K₂O)
Additional K as potassium sulfate during tuber bulking: 150 kg K₂O per hectare
NPK 19-9-19 contains 19% nitrogen that converts to nitrate. Nitrate leaching potential depends on soil texture and rainfall:
| Soil Type | Leaching Loss at 150 kg N/ha |
|---|---|
| Sand | 25% to 40% with 200 mm rainfall |
| Sandy loam | 15% to 25% with 200 mm rainfall |
| Loam | 10% to 15% with 200 mm rainfall |
| Clay loam | 5% to 10% with 200 mm rainfall |
Split application reduces leaching by matching nitrogen supply to crop uptake periods. On sandy soils, no more than 75 kg N per hectare should be applied in a single application.
The 9% phosphorus content contributes to phosphorus runoff risk if applied to fields with existing high phosphorus levels. To reduce phosphorus runoff:
Apply only to fields with soil phosphorus below 30 ppm Mehlich-3
Incorporate fertilizer rather than leaving on surface
Avoid application before forecast heavy rainfall
Maintain buffer strips along water bodies
Surface application of NPK 19-9-19 without incorporation leads to ammonia loss. Loss rates depend on soil pH, temperature, and moisture:
Soil pH below 6.0: 3% to 8% loss in 7 days
Soil pH 6.0 to 7.0: 5% to 12% loss in 7 days
Soil pH above 7.5: 10% to 18% loss in 7 days
Incorporation within 24 hours reduces losses to below 4% regardless of soil pH.
Standard NPK 19-9-19 using potassium chloride supplies approximately 150 kg chloride per metric ton of product. At typical application rates of 500 to 600 kg product per hectare, chloride loading ranges from 75 to 90 kg Cl per hectare per year.
Most field crops tolerate chloride at these levels. Chloride-sensitive crops require a chloride-free formulation using potassium sulfate.
In regions with nutrient management regulations, NPK 19-9-19 application must comply with nitrogen and phosphorus limits.
European Union Nitrates Directive: Maximum 170 kg N per hectare per year from livestock manure. Total nitrogen from all sources cannot exceed 250 kg N per hectare on most arable crops.
United States NRCS 590 Standard: Nitrogen application rates based on realistic yield expectations. Phosphorus application limited to crop removal plus maintenance on high-phosphorus soils.
The economic value of NPK 19-9-19 is determined by current market prices of nitrogen, phosphate, and potash. Using reference prices:
Nitrogen (from urea): $0.95 per kg N
Phosphate (from DAP): $1.10 per kg P₂O₅
Potash (from KCl): $0.85 per kg K₂O
One metric ton of NPK 19-9-19 contains 190 kg N, 90 kg P₂O₅, and 190 kg K₂O. The nutrient value is:
Nitrogen value: 190 kg × $0.95 = $180.50
Phosphate value: 90 kg × $1.10 = $99.00
Potash value: 190 kg × $0.85 = $161.50
Total nutrient value: $441.00 per metric ton
Manufacturing, bagging, and distribution add $40 to $70 per metric ton. A market price of $480 to $510 per metric ton for NPK 19-9-19 represents a typical range.
To achieve the same nutrient content as 1,000 kg of NPK 19-9-19, a grower would need:
Urea (46-0-0): 413 kg (for 190 kg N)
DAP (18-46-0): 196 kg (for 90 kg P₂O₅, plus 35 kg N)
Potash (0-0-60): 317 kg (for 190 kg K₂O)
Adjusted urea: 413 - 35 = 378 kg
Total weight of separate materials: 378 kg urea + 196 kg DAP + 317 kg potash = 891 kg
The separate materials weigh 109 kg less than the compound fertilizer. However, blending and handling three products requires more equipment and labor. At an application cost of $12 per product pass, applying three separate products costs $36 per hectare compared to $12 per hectare for the compound fertilizer.
The high nutrient density of NPK 19-9-19 (47% total nutrients) provides transportation savings compared to lower-analysis fertilizers:
To deliver 1,000 kg of N+P₂O₅+K₂O using 15-15-15 (45% nutrients): 2,222 kg of product
To deliver 1,000 kg of nutrients using 19-9-19 (47% nutrients): 2,128 kg of product
Weight saving: 94 kg per 1,000 kg of nutrients (4.2% reduction)
For a farming operation requiring 100 metric tons of nutrients annually, the saving is 9.4 metric tons of product weight, reducing freight cost by approximately $500 to $1,000 per year depending on shipping distance.
Corn production on 200 hectares using NPK 19-9-19:
Input costs:
NPK 19-9-19 at 600 kg per hectare × 200 hectares = 120 metric tons
Product price at $495 per metric ton = $59,400
Additional urea at 60 kg N per hectare × 200 hectares = 12 metric tons urea at $450 = $5,400
Application cost at $15 per hectare × 200 = $3,000
Total fertilizer cost = $67,800
Expected yield response:
Without fertilizer: 7 metric tons per hectare
With fertilizer program: 12 metric tons per hectare
Yield increase: 5 metric tons per hectare
Total yield increase: 1,000 metric tons
Corn price: $180 per metric ton
Revenue from fertilizer: 1,000 metric tons × $180 = $180,000
Return on investment: ($180,000 - $67,800) / $67,800 = 1.65 or 165% return
NPK 19-9-19 supplied by Hebei Wangdalei Trading Co., LTD meets the following typical specifications:
| Parameter | Specification |
|---|---|
| Total nitrogen (N) | 19.0% ± 0.5% |
| Ammoniacal nitrogen | 3.0% to 6.0% |
| Urea nitrogen | Balance to total N |
| Available P₂O₅ | 9.0% ± 0.5% |
| Soluble K₂O | 19.0% ± 0.5% |
| Moisture | Maximum 1.5% |
| Granule size (2-4 mm) | Minimum 90% |
| Granule hardness | Minimum 3.0 kg force |
| Dust content | Maximum 0.8% |
| Chloride content | Maximum 5% (standard formulation) |
Standard packaging configurations for NPK 19-9-19:
25 kg bags: Laminated plastic-woven construction with inner liner. 40 bags per pallet, 1,000 bags per 25 metric ton container.
50 kg bags: Laminated plastic-woven construction. 40 bags per pallet, 500 bags per 25 metric ton container.
1,000 kg jumbo bags: Polypropylene woven with polyethylene liner. 25 bags per 25 metric ton container.
Bulk container liners: 25 metric tons per 20-foot container.
Hebei Wangdalei Trading Co., LTD maintains supply relationships with compound fertilizer manufacturers operating ISO 9001-certified production facilities. Monthly production capacity for NPK 19-9-19 through partner facilities exceeds 8,000 metric tons.
Standard lead times:
Order confirmation to production: 3 to 5 days
Production to container loading: 5 to 7 days
Container loading to port departure: 2 to 4 days
Total from order to shipment: 10 to 16 days
Export documentation provided with each shipment:
Certificate of Analysis
Bill of Lading
Packing List
Commercial Invoice
Origin Certificate (upon request)
Phytosanitary Certificate (upon request for certain destinations)
NPK 19-9-19 is a high-analysis compound fertilizer with a balanced 2.1:1:2.1 ratio of nitrogen to phosphate to potash. The equal nitrogen and potassium content (19% each) provides a 1:1 ratio that matches the uptake patterns of cereal grains during grain fill. The 9% phosphorus content supplies maintenance-level phosphorus for energy transfer and root function. The total nutrient content of 47% reduces transportation volume, storage space, and application time compared to lower-analysis fertilizers.
The moderate salt index of NPK 19-9-19 allows safe use as a starter fertilizer when banded away from the seed. The moderate hygroscopicity provides acceptable storage stability for 15 to 20 months under proper conditions. The balanced nutrient composition makes NPK 19-9-19 a suitable base fertilizer for corn, wheat, rice, sorghum, and vegetable production systems, with additional nitrogen and potassium supplied separately to meet full crop requirements for high-yield production.
Hebei Wangdalei Trading Co., LTD supplies NPK 19-9-19 with consistent granule quality, multiple packaging options, and reliable supply chain capabilities for agricultural operations worldwide.
