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    As a member of the STEAG Group we are completely
    familiar with the requirements of our customers from
    the power generation and construction industries.
    We work untiringly to position ourselves as best possible
    also against the backdrop of the rapid and profound
    change in the energy market: with long-term contracts
    and a strong,
    internationally growing network –
    for our customers’ security of supply.

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    Fly ash from Iskenderun

    Fly ash from Iskenderun

    STEAG Power Minerals is currently tapping into a new source of fly ash: STEAG’s hard coal fired power plant in Iskenderun, Turkey, will supply large quantities in the future, primarily to international customers.

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    Ready for the energy transition

    Ready for the energy transition

    No later than 2038, the last coal-fired power plant in Germany is scheduled to go off line – a resolution that was finally adopted in the summer of 2020. STEAG Power Minerals has been preparing consistently and with anticipation for the changes in the energy sector for several years now.

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    Überseequartier sets new standards

    Überseequartier sets new standards

    Living, lifestyle and working totally redefined: The Westfield Hamburg-Überseequartier is currently under development at the heart of Hamburg’s HafenCity. STEAG Power Minerals fly ash plays a key role in the mega-project.

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    New expertise in slag treatment

    New expertise in slag treatment

    Growth in Brandenburg: On 1 January 2020, the STEAG Power Minerals Group acquired the majority of the shares in a slag treatment plant in Zossen. In future, slag and ash from STEAG’s waste to energy plants will be processed there and returned to the economic cycle – with high potential for creating value.

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    Absorbents based on chemically modified lime are highly reactive. Due to their high reactivity, absorbents are used in a multitude of industrial processes - mainly for flue gas treatment in power plants, but also for water treatment.


    AFESIKOS is an iron-free, synthetic, mineral-based, environment-friendly blasting agent; it is especially suitable for gentle blast cleaning of sensitive surfaces, e.g. stainless steel surfaces.


    Abbreviation for alkali-silica reaction (see Alkali-silica reaction)

    Alkali-silica reaction:

    The alkali-silica reaction (ASR in short) is a chemical reaction occurring in concrete between the soluble silica present in rock-based aggregates and the alkali and hydroxide ions present in the concrete's pore solution. This reaction produces an alkali-silica gel which due to its water-absorbing tendency can cause expansion and cracks as the concrete hardens. The detrimental alkali-silica reaction can be avoided by purposefully using hard coal fly ash as the main cement component.


    "Betonkopp" is the name of a comic-strip character developed specifically for STEAG Power Minerals' customer magazine SEGMENT which is published twice per year. "Betonkopp" translates literally as "concrete head" and, in the German dialect spoken in the Ruhr district, means a somewhat stubborn man. In each of his articles in the magazine, Betonkopp addresses a current topic. And last not least: He is also keen to learn what readers think about SEGMENT in general and about his own articles in particular.

    Bottom ash:

    Bottom ash is a mineral-based by-product arising from the combustion in coal in power plants. In the combustion process, coal particles are blown into a dry furnace at a temperature of around 1,200°C. Depending on its origin, the coal used contains between 64 and 95 percent of carbon and 5 to 35 percent of non-combustible mineral constituents. In den combustion process, the carbon is burned while 10 to 15 percent of the non-combustible mineral constituents agglomerate and fall to the furnace bottom. This ash is rapidly cooled down and removed from the boiler; the dark-gray, porous material thereby produced is called "bottom ash".

    Calcium sulfate:

    Calcium sulfate is the chemical name for gypsum. (see Gypsum)

    Calcium sulfate dihydrate:

    Calcium sulfate dihydrate is the chemical name for the gypsum arising in flue gas desulfurization plants ("FGD gypsum") (see FGD-gypsum)


    Concrete is a mixture of a binder (normally cement produced from limestone and clay as raw materials), aggregate (sand, gravel), water and, as the case may be, additives (e.g. fly ash). STEAG produces and supplies high-quality concrete additives designed to improve strength, workability, compressibility and water demand of the concrete.

    FGD gypsum:

    FGD gypsum is gypsum obtained from flue gas desulfurization (FGD) systems in power plants (see Opens internal link in current windowflue gas desulfurization). In the FGD system, sulfur is removed from the flue gas by "scrubbing". steagips® is produced only in wet scrubbing processes, where an aqueous suspension of limestone or calcium oxide is sprayed into the flue gas flow. In a first step, the sulfur dioxide contained in the flue gas is converted to calcium sulfite; reacting with the oxygen in air, the calcium sulfite then oxidizes to form calcium sulfate. The calcium sulfate dihydrate, occurring in suspension in water, is referred to as "FGD gypsum", and is separated in a mechanical process from the aqueous phase and dewatered to a residual moisture content of about 10 percent. Steagips® is available in moist, fine-grained form.

    Fly ash:

    Hard coal fly ash is a fine dust arising in the coal combustion process; it consists mainly of spherical, vitreous particles. Fly ash has puzzolanic properties and mainly consists of SiO2 and Al2O3. STEAG produces hard coal fly ash in its own modern hard coal fired power plants and also recycles fly ash arising in third-party power plants in Europe.

    General building inspectorate approval:

    On application, the Deutsches Institut für Bautechnik (DIBt) can grant a general building inspectorate approval for building materials and building techniques for which no generally accepted rules of sound engineering practice exist. Once granted, the general building inspectorate approval is proof of the usability of such materials and techniques and thus approval for their use in the building industry.

    Glass beads:

    Glass bead blasting abrasives from STEAG Power Minerals are made from fused sodium glass, and are therefore especially environmentally friendly. The iron-free beads are suitable for a wide range of applications, and are used, for example, for finish blasting and burnishing, shot peening, cleaning of sensitive surfaces and blasting of non-ferrous metals.

    Glass granulate:

    Glass granulate is an iron-free reusable blasting abrasive. Similarly to glass beads, it is also used for finish blasting and cleaning of sensitive surfaces, but with its angular form it is slightly more aggressive and has a greater abrasive effect. Furthermore, it is optimally usable for the production of visual effects such as matting of metallic surfaces, and for treatment of non-ferrous metals.

    High-sulfur coal:

    Coal consists of organic matter, minerals and water. The organic matter mainly consists of carbon, hydrogen, nitrogen, sulfur and oxygen, with the percentages of the different constituent elements varying depending on the origin and type of the coal. If the percentage of sulfur in the coal is 2 % or more, then the coal is considered to be a high-sulfur coal.

    Hydration heat:

    The chemical-physical reaction of cement with water is called hydration. The heat released in this reaction is referred to as hydration heat. Adding "steament®" hard coal fly ash to the concrete not only contributes to achieving a higher ultimate strength of the concrete, but also to reducing hydration heat. This effect is of particular benefit when massive concrete parts have to be produced in very hot regions (e.g. in the Arab countries or in Africa), because less hydration heat means a lower risk of crack formation.

    Loss on ignition:

    "Loss on ignition" is the percentage of unburned carbon in fly ash. In the electricity production process, hard coal is burned in a steam boiler furnace, and this combustion process gives rise to hard coal fly ash. The percentage of unburned carbon contained in fly ash is what we generally refer to as "loss on ignition". For fly ash to DIN EN 450-1, the loss on ignition must not exceed 5 %.

    Refuse derived fuels:

    Refuse derived fuels (RDF) excel in their high heating value and are an environmentally friendly alternative to other fuels, as they are produced from waste. Most of the RDFs supplied by STEAG come from wastewater treatment in sewage plants; by using such RDFs in their power plants our clients can considerably improve their CO2 balance, as RDF of biological origin can be a substitute for fossil fuels burned in power plants.


    SEGMENT is the customer magazine published by STEAG Power Minerals. Two bilingual (German/English) issues published every year inform our customers and partners about current topics around fly ash, concrete, cement, FGD gypsum, blasting abrasives and many other topics.

    Single-use blasting abrasive:

    Single-use blasting abrasives are mineral based abrasives whose abrasive particles disintegrate on impact on the surface to be cleaned or which are heavily contaminated in the blast cleaning process; their useful life is therefore limited to a single use. AFESIKOS and ASILIKOS are single-use blasting abrasives supplied by STEAG Power Minerals.


    steagips is the trade name of the FGD gypsum supplied by STEAG Power Minerals (see FGD gypsum)


    steament is the trade name of the fly ash supplied by STEAG Power Minerals (see Ofly ash)


    steasint is the trade name of the bottom ash supplied by STEAG Power Minerals (see bottom ash)