Combined system for producing steel and method for operating the combined system

The invention claimed is: 1. A plant complex for steel production comprising: a blast furnace for producing pig iron; a converter steel mill for producing crude steel; and a gas-conducting system for gases that occur in at least one of the production of pig iron and crude steel; wherein: the plant complex additionally comprises: a biotechnological plant connected to the gas-conducting system; chemical or electrochemical energy storage for storing electricity, wherein the stored electricity covers at least part of the electricity demand of the plant complex; a power-generating plant operably connected to the gas-conducting system; and an electrolysis plant for the electrolysis of water, the electrolysis plant: being connected to the biotechnological plant by a hydrogen line; and being connected to at least one of the blast furnace and the converter steel mill for producing crude steel and treating crude steel by means of an oxygen return device; wherein: the biotechnological plant produces alcohol, acetone, or organic acids by a fermentation of a syngas; the syngas consists of a hydrogen gas produced by the electrolysis plant, a blast furnace gas from the blast furnace, a converter gas from the converter steel mill, and a coke oven gas; the biotechnological plant is arranged in parallel with the power-generating plant with respect to the syngas; and for the purpose of supplying electricity to the electrolysis plant, the energy storage is electrically connected thereto. 2. The plant complex according to claim 1 , wherein the power-generating plant is designed as a gas-turbine power-generating plant or a gas-turbine and steam-turbine power-generating plant and is operated with a gas which comprises at least a partial amount of one of: the blast-furnace top gas that occurs in the production of pig iron in the blast furnace, and the converter gas that occurs in the converter steel works; and wherein the gas-conducting system has a switchable gas diverter for dividing the streams of gas that are fed to the power-generating plant and the biotechnological plant. 3. The plant complex according to claim 2 , wherein oxygen that occurs in the electrolysis of water is used in at least one of the blast furnace for producing pig iron and the converter steel mill for producing crude steel. 4. The plant complex according to claim 3 , wherein 5% to 60% of the amount of gas that occurs as blast-furnace top gas in the production of pig iron and as converter gas in the converter steel mill is fed to the biotechnological plant. 5. The plant complex according to claim 2 , wherein the power-generating plant is used in standby mode and at certain times is switched off. 6. A plant complex for steel production comprising: a blast furnace for producing pig iron; a converter steel mill for producing crude steel; and a gas-conducting system for gases that occur in at least one of the production of pig iron and crude steel; wherein: the plant complex additionally comprises: a chemical plant connected to the gas-conducting system; chemical or electrochemical energy storage for storing electricity, wherein the stored electricity covers at least part of the electricity demand of the plant complex; a power-generating plant operably connected to the gas-conducting system; the chemical plant is arranged in parallel with the power-generating plant with respect to a syngas; and an electrolysis plant for the electrolysis of water, the electrolysis plant: being connected to the chemical plant by a hydrogen line; and being connected to at least one of the blast furnace and the converter steel mill for producing crude steel and treating crude steel by means of an oxygen return device; wherein: the chemical plant produces ammonia, methanol, or other hydrocarbon compounds from the syngas; the syngas consists of a hydrogen gas produced by the electrolysis plant, a blast furnace gas from the blast furnace, a converter gas from the converter steel mill, and a coke oven gas; and for the purpose of supplying electricity to the electrolysis plant, the energy storage is electrically connected thereto. 7. The plant complex according to claim 6 wherein the power generating plant is designed as a gas-turbine power-generating plant or a gas-turbine and steam-turbine power-generating plant and is operated with a gas which comprises at least a partial amount of one of: the blast-furnace top gas that occurs in the production of pig iron in the blast furnace, and the converter gas that occurs in the converter steel works; and wherein the gas-conducting system has a switchable gas diverter for dividing the streams of gas that are fed to the power-generating plant and the chemical plant. 8. The plant complex according to claim 7 , wherein the power-generating plant is used in standby mode and is selectively switched off. 9. The plant complex according to claim 6 , wherein oxygen that occurs in the electrolysis of water is used in at least one of the blast furnace for producing pig iron and the converter steel mill for producing crude steel. 10. The plant complex according to claim 9 , wherein 5% to 60% of the amount of gas that occurs as blast-furnace top gas in the production of pig iron and as converter gas in the converter steel mill is fed to the chemical plant.