torontomeds
Well-Known Member
Nitrogen fertilizers are made from ammonia (NH3), which is sometimes injected into the ground directly. The ammonia is produced by the Haber-Bosch process.[5] In this energy-intensive process, natural gas (CH4) supplies the hydrogen, and the nitrogen (N2) is derived from the air. This ammonia is used as a feedstock for all other nitrogen fertilizers, such as anhydrous ammonium nitrate (NH4NO3) and urea (CO(NH2)2).
Deposits of sodium nitrate (NaNO3) (Chilean saltpeter) are also found in the Atacama desert in Chile and was one of the original (1830) nitrogen-rich fertilizers used.[12] It is still mined for fertilizer.[13]
All phosphate fertilizers are obtained by extraction from minerals containing the anion PO43−. In rare cases, fields are treated with the crushed mineral, but most often more soluble salts are produced by chemical treatment of phosphate minerals. The most popular phosphate-containing minerals are referred to collectively as phosphate rock. The main minerals are fluorapatite Ca5(PO4)3F (CFA) and hydroxyapatite Ca5(PO4)3OH. These minerals are converted to water-soluble phosphate salts by treatment with sulfuric or phosphoric acids. The large production of sulfuric acid as an industrial chemical is primarily due to its use as cheap acid in processing phosphate rock into phosphate fertilizer. The global primary uses for both sulfur and phosphorus compounds relate to this basic process.
In the nitrophosphate process or Odda process (invented in 1927), phosphate rock with up to a 20% phosphorus (P) content is dissolved with nitric acid (HNO3) to produce a mixture of phosphoric acid (H3PO4) and calcium nitrate (Ca(NO3)2). This mixture can be combined with a potassium fertilizer to produce a compound fertilizer with the three macronutrients N, P and K in easily dissolved form.[15]
Potash is a mixture of potassium minerals used to make potassium (chemical symbol: K) fertilizers. Potash is soluble in water, so the main effort in producing this nutrient from the ore involves some purification steps; e.g., to remove sodium chloride (NaCl) (common salt). Sometimes potash is referred to as K2O, as a matter of convenience to those describing the potassium content. In fact potash fertilizers are usually potassium chloride, potassium sulfate, potassium carbonate, or potassium nitrate.[16]
Compound fertilizers, which contain N, P, and K, can often be produced by mixing straight fertilizers. In some cases, chemical reactions occur between the two or more components. For example, monoammonium and diammonium phosphates, which provide plants with both N and P, are produced by neutralizing phosphoric acid (from phosphate rock) and ammonia
We burn through more of it per capita than any other country; and our appetite for it can only be sated with massive imports.
No, not oil — I’m talking about nitrogen fertilizer. With only 5 percent of the world population, the U.S. consumes nearly 12 percent of the globe’s annual synthetic nitrogen fertilizer production. And we’re producing less and less of it at home — meaning that, as with petroleum, we’re increasingly dependent on other nations for this key crop nutrient.
In a sense, the answer to the question of where our food comes from is not some vast Iowa cornfield or teeming North Carolina hog factory. It’s places like the Port Lisas Industrial Estate on the Caribbean island nation of Trinidad and Tobago, where 10 natural gas-sucking ammonia plants produce about a quarter of the nitrogen fertilizer used by American farmers.
Nitrogen fertilizer production is tied directly to natural gas, the energy source used in the United States to synthesize nitrogen-rich ammonia from thin air. So you could also imagine our food coming from some vast natural gas deposit in the Gulf of Mexico or off of Trinidad. Nearly as much as grain elevators or supermarkets, off-shore gas rigs count as vital food-system infrastructure.
So you are trying to tell me that salt ferts are not directly tied to the petrol chemical industry??????? You guys are smoking to much of that diluted tumble weed. How is this any different then Monsanto?
Deposits of sodium nitrate (NaNO3) (Chilean saltpeter) are also found in the Atacama desert in Chile and was one of the original (1830) nitrogen-rich fertilizers used.[12] It is still mined for fertilizer.[13]
All phosphate fertilizers are obtained by extraction from minerals containing the anion PO43−. In rare cases, fields are treated with the crushed mineral, but most often more soluble salts are produced by chemical treatment of phosphate minerals. The most popular phosphate-containing minerals are referred to collectively as phosphate rock. The main minerals are fluorapatite Ca5(PO4)3F (CFA) and hydroxyapatite Ca5(PO4)3OH. These minerals are converted to water-soluble phosphate salts by treatment with sulfuric or phosphoric acids. The large production of sulfuric acid as an industrial chemical is primarily due to its use as cheap acid in processing phosphate rock into phosphate fertilizer. The global primary uses for both sulfur and phosphorus compounds relate to this basic process.
In the nitrophosphate process or Odda process (invented in 1927), phosphate rock with up to a 20% phosphorus (P) content is dissolved with nitric acid (HNO3) to produce a mixture of phosphoric acid (H3PO4) and calcium nitrate (Ca(NO3)2). This mixture can be combined with a potassium fertilizer to produce a compound fertilizer with the three macronutrients N, P and K in easily dissolved form.[15]
Potash is a mixture of potassium minerals used to make potassium (chemical symbol: K) fertilizers. Potash is soluble in water, so the main effort in producing this nutrient from the ore involves some purification steps; e.g., to remove sodium chloride (NaCl) (common salt). Sometimes potash is referred to as K2O, as a matter of convenience to those describing the potassium content. In fact potash fertilizers are usually potassium chloride, potassium sulfate, potassium carbonate, or potassium nitrate.[16]
Compound fertilizers, which contain N, P, and K, can often be produced by mixing straight fertilizers. In some cases, chemical reactions occur between the two or more components. For example, monoammonium and diammonium phosphates, which provide plants with both N and P, are produced by neutralizing phosphoric acid (from phosphate rock) and ammonia
We burn through more of it per capita than any other country; and our appetite for it can only be sated with massive imports.
No, not oil — I’m talking about nitrogen fertilizer. With only 5 percent of the world population, the U.S. consumes nearly 12 percent of the globe’s annual synthetic nitrogen fertilizer production. And we’re producing less and less of it at home — meaning that, as with petroleum, we’re increasingly dependent on other nations for this key crop nutrient.
In a sense, the answer to the question of where our food comes from is not some vast Iowa cornfield or teeming North Carolina hog factory. It’s places like the Port Lisas Industrial Estate on the Caribbean island nation of Trinidad and Tobago, where 10 natural gas-sucking ammonia plants produce about a quarter of the nitrogen fertilizer used by American farmers.
Nitrogen fertilizer production is tied directly to natural gas, the energy source used in the United States to synthesize nitrogen-rich ammonia from thin air. So you could also imagine our food coming from some vast natural gas deposit in the Gulf of Mexico or off of Trinidad. Nearly as much as grain elevators or supermarkets, off-shore gas rigs count as vital food-system infrastructure.
So you are trying to tell me that salt ferts are not directly tied to the petrol chemical industry??????? You guys are smoking to much of that diluted tumble weed. How is this any different then Monsanto?