Fertilizer out of thin air
In September 1913, the first industrial-scale ammonia production plant came on stream at BASF in Ludwigshafen
Even a hundred years after the beginning of the industrial production of the basic chemical ammonia, a visit to BASF's two ammonia plants in Ludwigshafen still impresses. Standing in front of the approximately 20 meter high reactor of the older plant and reflecting upon the elemental forces that cause nitrogen and hydrogen to react and produce ammonia brings home the importance of this scientific and technical breakthrough. The Haber-Bosch process for ammonia synthesis, which was first successfully operated here in September 1913, was the decisive step into the age of mineral fertilizers. This innovation became a key driver in the development of the industrialized society and is still securing the nutrition of billions of people today. The high pressure reactor in front of us is a great-grandchild of the apparatus developed by Carl Bosch, much larger of course but of similar design. The newer plant next door with its more advanced process technology exhibits less visible historical similarities. The two ammonia factories together produce more than 2,000 metric tons per day of the much sought-after compound NH3.
"The realization of industrial ammonia synthesis involved high entrepreneurial risks and demanded great staying power," emphasizes Production Manager Michael Mauß. "Processes and equipment for this pioneering technology had to be developed from scratch."
The foundations for the "Synthesis of ammonia from its elements" were laid by Professor Fritz Haber from 1904 onwards with his work at Karlsruhe Institute of Technology. The industrial upscaling of ammonia synthesis entrusted by BASF to Carl Bosch in 1909, however, initially raised unforeseen problems. Because the high-pressure process required pressures and temperatures considerably exceeding those that had so far been technically possible. The first plants couldn't stand the strain and its steel reactors burst. Bosch the chemist, who was experienced in metallurgy, closely studied the metals that had been used and finally identified the cause: the hot, highly pressurized hydrogen was taking the carbon essential for strength out of the steel walls, making them soft and simultaneously brittle. Bosch overcame this challenge by fitting the inside of the apparatus with a thin lining of low-carbon soft iron and drilling holes in the pressure bearing steel wall. This allowed the hydrogen that had penetrated into the material to escape without causing damage. This innovative high pressure technology required further components that were not available anywhere, and had to be designed and tested within the company. BASF established the chemical industry's first material testing facility for this purpose in 1912.
"Even today, the industrial production of ammonia is still operating at the limits of the possible. The challenges for the material and technology of the production plant are enormous under these high pressure synthesis conditions," explains Dr. Jürgen Korkhaus, Head of Materials Engineering, comparing present with past practice. "Even minor variations in the process can subject the materials to immense stresses. The apparatus therefore has to be designed and constructed with extreme care." The reactor of the newer ammonia production plant in which the synthesis gas mixture reacts over a catalyst bed at above 400 degrees Celsius and more than 150 bar pressure to produce ammonia, has a 15 centimeter thick wall of high-strength steel. Its advanced alloy resists the pressurized hydrogen, making the legendary casing unnecessary today.
The raw material used to generate the synthesis gas is also different today: in the first few decades of the Haber-Bosch process, a large number of employees prepared a bed of glowing coke and passed steam over it. Today, ammonia plants use natural gas as a feedstock and energy source, which also makes up the lion's share of the production costs. At Ludwigshafen site, the ammonia production is the second largest natural gas consumer after the company's own power generating plants. As in the early days, the necessary nitrogen is obtained from the air supply and, for a change, costs nothing at all.
The industrial synthesis of the basic chemical ammonia has become an essential part of the production Verbund. At BASF in Ludwigshafen, this material is now used mainly to manufacture urea-based glues and impregnating resins for wood-based materials, but also various amines and caprolactam, the starting material for polyamide plastics. Worldwide, however, three quarters of the generated ammonia is still used for the production of fertilizers.
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