- +91-9001000101
- jobsonenterprises@gmail.com
- Udaipur 313001, Rajasthan, India
Technical guidance, process understanding, and plant support for concentrated phosphate fertilizer production.
This page is based on Jobson Enterprises' TSP content and presents triple super phosphate manufacturing in a cleaner, more structured layout covering process background, reaction logic, production stages, gas scrubbing, and plant flow requirements.
TSP is presented by Jobson as a concentrated fertilizer produced by reacting phosphate rock with concentrated phosphoric acid.
The source page explains that triple super phosphate is manufactured from phosphate rock containing around 45% to 55% P2O5, reacted with concentrated phosphoric acid under controlled conditions. It also notes that TSP is significantly more concentrated than ordinary superphosphate, delivering about 45% to 46% available P2O5.
Jobson also states that the present SSP process can be adapted for TSP manufacturing with only minor process changes, making this route relevant for plants evaluating technology extension or conversion opportunities.
Concentrated Phosphate • SSP-Based Adaptation • 45–46% Available P2O5The website highlights the operating window used to determine optimum production conditions for triple super phosphate.
The page lists a reaction time range of 30 to 120 minutes for evaluating and optimizing TSP production conditions.
Phosphoric acid concentration is described in the range of 45% to 60% by weight for the production study referenced on the site.
The source page notes a reaction temperature range of 90°C to 100°C as part of the optimum-condition framework for TSP manufacture.
Jobson describes TSP manufacturing as similar to single superphosphate production, but configured for concentrated phosphoric acid reaction and TSP-grade output.
According to the source page, pulverized phosphate rock is mixed with phosphoric acid in a two-stage reactor, along with some portion of sulfuric acid. The resulting slurry is then sprayed into a granulator, where it moves co-current with hot flue gases from fired fuel and combustion air.
After granulation, the product is screened, with off-size material recycled back to the granulator. On-size material is then cooled and transferred to storage, where it is held ready for bagging and dispatch.
The page identifies the main chemistry as the reaction of phosphate rock with phosphoric acid to produce triple superphosphate. In practical page terms, the emphasis is less on laboratory detail and more on process suitability, concentration, and industrial fertilizer output.
The website content can be translated into a straightforward industrial sequence from reaction to finished fertilizer packing.
Phosphate rock and concentrated phosphoric acid are reacted in a two-stage system to generate process slurry for downstream granulation.
The slurry is sprayed into the granulator, where controlled particle buildup takes place in the presence of process gas flow.
Finished size is separated, while off-size particles are recycled to support granulation efficiency and product uniformity.
On-size product is cooled, stored, and held ready for final bagging and dispatch from the plant.
The source page specifically notes exhaust-gas handling for removal of fluoric compounds from process sections.
Jobson states that the exhaust gases from the reactor, granulator, and cooler are scrubbed to remove fluoric compounds. This makes emissions control an integral part of the manufacturing line rather than a secondary utility consideration.
For plant planning and engineering, this means the TSP section should be considered together with gas handling, scrubbing, process safety, and environmental support systems from the earliest stage of design.
A cleaner presentation helps convert the technical source material into a stronger business-facing expertise page.
Explains how TSP differs from ordinary superphosphate through concentration level and process route.
Shows that existing SSP process logic may be extended for TSP with controlled process modifications.
Makes the line sequence easier to understand from reaction through granulation, screening, cooling, and packing.
Highlights that scrubbing and fluoric-compound removal are essential parts of the total plant concept.
A better-structured expertise page helps translate technical capability into consultative value.
Clear explanation of the TSP production route, feed chemistry basis, and plant-stage logic.
Better connection between process description and design, engineering, commissioning, or revamp opportunities.
Specific visibility into scrubbing requirements and emissions-related process integration.
Whether you are evaluating triple super phosphate production, planning a new fertilizer project, or reviewing process adaptation from SSP to TSP, Jobson Enterprises can support the next stage with practical, technically aligned guidance.
At Jobson Enterprises, we are committed to delivering innovative and reliable engineering solutions for the industrial and fertilizer sectors. With a strong foundation in technical expertise and project execution, we specialize in providing end-to-end services — from concept and design to commissioning and operational support.
3B49, Gupteshwer Nagar Sector 7, Hiran Magri Near temple, Udaipur 313001, Rajasthan, India
+91-9001000101
jobsonenterprises@gmail.com
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