Mining in the Upper Harz region of central Germany was a major industry for several centuries, especially for the production of silver, lead, copper, and, latterly, zinc as well. Great wealth was accumulated from the mining of silver from the 16th to the 19th centuries, as well as from important technical inventions. The centre of the mining industry was the group of seven

Upper Harz The Upper Harz (german: Oberharz, ) refers to the northwestern and higher part of the Harz mountain range in Germany. The exact boundaries of this geographical region may be defined differently depending on the context. In its traditional sense, th ...

mining town A mining community, also known as a mining town or a mining camp, is a community that houses miners. Mining communities are usually created around a mine or a quarry. Historic mining communities Australia * Ballarat, Victoria * Bendigo, ...

s of Clausthal, Zellerfeld,

Sankt Andreasberg Sankt Andreasberg is a former town in the Goslar (district), district of Goslar, in Lower Saxony, Germany. Since 1 November 2011, it is part of the town Braunlage. It is situated in the Harz, approximately 7 km west of Braunlage proper, and 2 ...

Wildemann Wildemann () is a town and a former municipality in the district of Goslar, in Lower Saxony, Germany. It has been part of the town Clausthal-Zellerfeld since January 1, 2015. It is situated in the west of the Harz, northwest of Clausthal-Zellerfel ...

, Grund,

Lautenthal The formerly free mining town ('' Bergstadt'') of Lautenthal in Germany is a state-recognised, climatic spa with around 1,570 inhabitants and has been part of the borough of Langelsheim since 1972. Geography Lautenthal lies in the Innerst ...

und

Altenau Altenau () is a town and a former municipality in the district of Goslar, in Lower Saxony, Germany. Since 1 January 2015 it is part of the town Clausthal-Zellerfeld. It is situated in the middle of the Harz mountains, between Clausthal-Zellerf ...

History

The Upper Harz was once one of the most important mining regions in Germany. The major products of its mines were silver, copper, lead, iron and, from the 19th century, zinc as well. The main source of income, however, was silver. From the 16th to the middle of the 19th centuries about 40–50% of the entire German silver production originated in the Upper Harz. The taxes raised from this contributed significantly to the revenue of the royal houses in Hanover and Brunswick-Wolfenbüttel and helped to secure their positions of power and influence within the empire. Its lucrativeness justified a high commitment in terms of investment and effort. The Upper Harz mining industry produced a considerable number of innovations and inventions, including such important advances as the

man engine A man engine is a mechanism of reciprocating ladders and stationary platforms installed in mines to assist the miners' journeys to and from the working levels. It was invented in Germany in the 19th century and was a prominent feature of tin an ...

, the

water-column engine The water engine is a positive-displacement engine, often closely resembling a steam engine with similar pistons and valves, that is driven by water pressure. The supply of water was derived from a natural head of water, the water mains, or a sp ...

and the

wire cable Steel wire rope (right hand lang lay) Wire rope is several strands of metal wire twisted into a helix forming a composite ''rope'', in a pattern known as ''laid rope''. Larger diameter wire rope consists of multiple strands of such laid rope in a ...

. In the Upper Harz, vein mining (''Gangerzbergbau'') predominated. Excavation followed the almost vertically standing lodes or veins (''Erzgängen'') downwards. In their heyday the Upper Harz Mines were among the deepest in the world. For example, as early as 1700 or so shafts were already exceeding depths of 300 metres and, around 1830, a depth of 600 metres was achieved – which was considered significant at that time because it was below sea level.

The Middle Ages

Mining activity in the Harz goes back to the 10th and 11th centuries. The first

water wheels A water wheel is a machine for converting the energy of flowing or falling water into useful forms of power, often in a watermill. A water wheel consists of a wheel (usually constructed from wood or metal), with a number of blades or buckets ...

to supply energy to the mines were constructed in the 13th century in the Pandelbach valley southeast of

Seesen Seesen is a town and municipality in the Goslar (district), district of Goslar, in Lower Saxony, Germany. It is situated on the northwestern edge of the Harz mountain range, approx. west of Goslar. History The Duchy of Saxony, Saxon settlement ...

. At that time mining, including this early use of water systems, was carried out by the Cistercian abbey of Walkenried. At first outcropping lodes on the surface of the ground were sought out and sections of ore near the surface were dug out with hammers and chisels. Mining first boomed between 1200 and 1360. In the upper workings there were particularly rich veins of silver ore (up to 9% Ag).

Plague Plague or The Plague may refer to: Agriculture, fauna, and medicine *Plague (disease), a disease caused by ''Yersinia pestis'' * An epidemic of infectious disease (medical or agricultural) * A pandemic caused by such a disease * A swarm of pes ...

epidemics during the

Middle Ages In the history of Europe, the Middle Ages or medieval period lasted approximately from the late 5th to the late 15th centuries, similar to the post-classical period of global history. It began with the fall of the Western Roman Empire a ...

depopulated the Harz to a great extent and almost brought mining operations to a standstill. Another factor was probably that mining had reached its technical limits at the time with depths of up to about 60 m.

Early Modern Period to the Industrial Revolution

A clear recovery followed from about 1520 onwards, initially at the instigation of the Duke of Brunswick-Wolfenbüttel, Henry the Younger. But it was his son,

Julius, Duke of Brunswick-Lüneburg Julius of Brunswick-Lüneburg (also known as Julius of Braunschweig; 29 June 1528 – 3 May 1589), a member of the House of Welf, was Duke of Brunswick-Lüneburg and ruling Prince of Brunswick-Wolfenbüttel from 1568 until his death. From 1584, he ...

, who gave added impetus to existing mining operations in the Upper Harz and initiated the creation of further infrastructure, especially the structures of the

Upper Harz Water Regale The Upper Harz Water Regale (german: Oberharzer Wasserregal, ) is a system of dams, reservoirs, ditches and other structures, much of which was built from the 16th to 19th centuries to divert and store the water that drove the water wheels of the ...

to provide water power for the mines. In order to entice the necessary labourers, tradesmen and even mining companies to the Harz, the dukes granted 'mining freedoms' (''Bergfreiheiten'') based on Bohemian and Saxon practice. Because the considerable energy needed to drain the mines increased as the mines became deeper and deeper, attempts were made early on to reduce energy consumption by driving drainage adits. This entailed cutting tunnels from the mine into the neighbouring valleys, through which water could drain away downhill under gravity. The deeper the water level lay, the longer these adits needed to be. The longest of these tunnels was the

Ernst August Tunnel Ernst is both a surname and a given name, the German, Dutch, and Scandinavian form of Ernest. Notable people with the name include: Surname * Adolf Ernst (1832–1899) German botanist known by the author abbreviation "Ernst" * Anton Ernst (1975- ...

, built in the mid-19th century, which was 26 kilometres long. It collected water from the mines in Bockswiese, Lautenthal, Zellerfeld, Clausthal and Wildemann and transported it to

Gittelde Gittelde is a village and a former municipality in the district of Göttingen, in Lower Saxony, Germany. Since 1 March 2013, it is part of the municipality Bad Grund. History Gittelde was founded in the 10th century. In a document dating from 9 ...

on the edge of the Harz. The Upper Harz mines attained their greatest productivity in the 16th and 17th centuries, even though there were frequent crises during that time. In 1690 the metal produced reached a quantity that was not exceeded until 1850. That was especially thanks to the construction of artificial water supply structures and the introduction of

gunpowder Gunpowder, also commonly known as black powder to distinguish it from modern smokeless powder, is the earliest known chemical explosive. It consists of a mixture of sulfur, carbon (in the form of charcoal) and potassium nitrate (saltpeter). ...

for

rock blasting Drilling and blasting is the controlled use of explosives and other methods, such as gas pressure blasting pyrotechnics, to break rock for excavation. It is practiced most often in mining, quarrying and civil engineering such as dam, tunnel o ...

from 1630 onwards. During the course of the 18th century there were constant crises as a result of the lack of wood. The problem was eased by the introduction of

coking coal Metallurgical coal or coking coal is a grade of coal that can be used to produce good-quality coke. Coke is an essential fuel and reactant in the blast furnace process for primary steelmaking. The demand for metallurgical coal is highly coupled ...

for the smelters around 1800. On 1 January 1864 the mines were nationalised by the

Kingdom of Hanover The Kingdom of Hanover (german: Königreich Hannover) was established in October 1814 by the Congress of Vienna, with the restoration of George III to his Hanoverian territories after the Napoleonic era. It succeeded the former Electorate of Han ...

Industrial Revolution to the Closure of the Mines

Following the annexation of the Kingdom of Hanover by the

Kingdom of Prussia The Kingdom of Prussia (german: Königreich Preußen, ) was a German kingdom that constituted the state of Prussia between 1701 and 1918.Marriott, J. A. R., and Charles Grant Robertson. ''The Evolution of Prussia, the Making of an Empire''. Re ...

in 1866 the Royal Prussian Mining Inspectorate (''Königlich-Preußische Bergbauinspektion'') took over the running of mines in the Upper Harz. It was succeeded in 1924 by

Preussag TUI Group is a German leisure, travel and tourism company. TUI is an acronym for ''Touristik Union International'' ("Tourism Union International"). TUI AG was known as Preussag AG until 1997 when the company changed its activities from mining to ...

. Around 1900 shaft depths of 1,000 metres were reached and the mining of ore became increasingly costly. At the same time the mines had to compete with other domestic and foreign mines in a climate of ever-improving transportation. Overexploitation during the

First World War World War I (28 July 1914 11 November 1918), often abbreviated as WWI, was one of the deadliest global conflicts in history. Belligerents included much of Europe, the Russian Empire, the United States, and the Ottoman Empire, with fightin ...

and plummeting metal prices resulted in major closures at the height of the

Great Depression The Great Depression (19291939) was an economic shock that impacted most countries across the world. It was a period of economic depression that became evident after a major fall in stock prices in the United States. The economic contagio ...

in 1930, when the big mines around

Clausthal-Zellerfeld Clausthal-Zellerfeld is a town in Lower Saxony, Germany. It is located in the southwestern part of the Harz mountains. Its population is approximately 15,000. The City is the location of the Clausthal University of Technology. The health resort ...

, Bockswiese and

had to close. Mining operations continued in Bad Grund, however, until 1992.

Re-use for electricity generation

Following the closure of the mines in 1930, several shafts switched to the generation of electricity. Here, water from the Upper Harz Water Regale's network of ponds and channels was transported down chutes into the shafts, in which

turbines A turbine ( or ) (from the Greek , ''tyrbē'', or Latin ''turbo'', meaning vortex) is a rotary mechanical device that extracts energy from a fluid flow and converts it into useful Work (physics), work. The work produced by a turbine can be used ...

were driven to produce electricity at the level of the deepest drainage adit. The generation of electricity was carried out by Preussag until 1980 in the Kaiser Wilhelm (maximum output 4.5 MW) and Ottiliae (maximum output 1.5 MW) shafts. The hydropower stations were closed in the early 1980s when the

water rights Water right in water law refers to the right of a user to use water from a water source, e.g., a river, stream, pond or source of groundwater. In areas with plentiful water and few users, such systems are generally not complicated or contentiou ...

expired and the profitability of the power stations continued to fall at a time of sharply rising wages and stagnating electricity prices. These years saw the permanent closure of the last surviving mines.

Mining technology in the Upper Harz

Mining the ore

In the early days of mining in the Upper Harz simple open cast working (''Schurfe'') was the predominant method of mining. With increasing depth a form of mixed mining developed that was somewhere between open cast and

underground mining Mining is the extraction of valuable minerals or other geological materials from the Earth, usually from an ore body, lode, vein, seam, reef, or placer deposit. The exploitation of these deposits for raw material is based on the economic via ...

. These mines were known as

glory hole A glory hole (also spelled gloryhole and glory-hole) is a hole in a wall or partition, often between public toilet, public lavatory cubicles or adult video arcade, sex video arcade booths and lounges, for people to engage in sexual activity or ...

s (''Pingen'') or simply dip mines (''Unterwerksbau''). The ore deposits that lay immediately on the surface were quickly exhausted and, as early as the 12th and 13th century miners were forced to switch entirely over to underground mining. The mining methods that could be used were limited by the steep, almost vertical, lenticles of ore, which were only a few metres wide, but dipped for several hundred metres into the earth. Hauling shafts were usually positioned in centre of the ore allotment on the lode and followed it into the ground. This resulted in inclined shafts with their characteristic, right-angled, longitudinal sections and frequent changes of angle away from the vertical. There were two reasons for this approach: firstly, it had to be possible to extract ore from the beginning (as soon as the shaft was sunk) in order to make the pit economic as early as possible. Secondly, the rock in the ore lode, which formed a 'zone of disturbance', was much softer than the surrounding rock. The typical Harz

grauwacke Greywacke or graywacke (German ''grauwacke'', signifying a grey, earthy rock) is a variety of sandstone generally characterized by its hardness, dark color, and poorly sorted angular grains of quartz, feldspar, and small rock fragments or lit ...

was far harder than concrete. As a result, the majority of drainage adits followed the vein. From the shaft, main gangways, the so-called ''Feldortstrecken'', were driven out to the boundary of the mine allotment. From these gangways, miners began to extract the ore, heading downwards into the floor, by 'brushing down' (''Nachreißen'') in stepped fashion, a technique known as underhand stoping. The stopes had a height of up to 3 metres and followed one another about 5 to 6 metres apart. In longitudinal section, therefore, a pit looked like a Christmas tree standing on its head. The deepest point of the pit was usually the main shaft. This enabled it to collect

pit water Pit water, mine water or mining water is water that collects in a mine and which has to be brought to the surface by water management methods in order to enable the mine to continue working. Origin Although all water that enters pit workings or ...

in the shaft 'sump'. As mining progressed the shaft was sunk deeper. The packing (gangue material used for filling) from the upper main gangways was placed in the exhausted cavities (the so-called 'old man' or ''Alter Mann''). This required the erection of a wooden ceiling over the active workings so that packing material did not fall into it and onto the face workers there. If the expected supply of ore or its quality did not justify sinking the main shaft deeper, or if the workings were a long way from it, draw-shafts were sunk. These blind shafts saved having to pack the 'old man'. In the Hornstatt, 1 or 2 labourers (''Knechte'') worked a hand

winch A winch is a mechanical device that is used to pull in (wind up) or let out (wind out) or otherwise adjust the tension of a rope or wire rope (also called "cable" or "wire cable"). In its simplest form, it consists of a spool (or drum) attache ...

and lifted the ore to the next highest main gallery. From 1633

was used both for ore extraction and for driving gangways. This increased the daily headway considerably, from a few centimetres into the lode to a metre or more. The disadvantage, however, was that even more wood was needed to extend the mine, because blasting caused the rock to fissure. When blasting, first a cut in the lode was made about 3 metres high and deep and a little less than a metre wide using hammer and chisel. Next one or two transverse boreholes with a 6–7 cm diameter were drilled by hand Usually two-man boring was employed: one turned the borer whilst a second hit it with his sledge. The holes were filled with gunpowder and stuffed with a wooden peg which had a hole for a slow-match wick. Unlike blasting with modern explosive, the stemming had to be wedged in using an iron rod centred on the borehole and a thick wooden prop in a slot (''Bühnloch'') on the opposite side. This operation frequently led to serious accidents when the gunpowder self-ignited as a result of friction-generated heat. Normal detonation was carried out using cord that had been impregnated with sulphur and gunpowder. After clearing the blast debris, the material to be screened was loaded into wagons (''Hunde'' or ''Hunte'') using rakes (''Kratze'') and tubs (''Trog''). Larger boulders (''Wände'') were first broken up with sledges and crowbars. From the second half of the 18th century the method of mining was reversed. Now the roof was always mined and so extraction proceeded upwards. That meant the miners worked on top of the packing and could transport the ore under gravity using so-called chute holes (''Rollöcher'' or ''Rollen'') rather than shafts. Overhand stoping remained the only mining method in the Upper Harz mines until the end and was perfected in the final years through the use of trackless wagons, roof bolts (''Ankern''),

shotcrete Shotcrete, gunite (), or sprayed concrete is concrete or mortar conveyed through a hose and pneumatically projected at high velocity onto a surface, as a construction technique, first used in 1907 invented by Carl Akeley. It is typically r ...

and lean concrete packing. Trials with sublevel stoping (''Teilsohlenbruchbau'') and square set timbering (''Blockbau mit Rahmenzimmerung'') did not get past the experimental stage. In the middle of the 19th century, the many individual pits transferred to larger mine complexes with central shafts, at which point the sinking of inclined shafts and the mixing of layout and equipment with the workings was abandoned entirely. The central, vertical shafts lay in the host rock (usually in the hanging wall), just as permanently established as the main gangways (usually in the footwall).

Extraction technology

To begin with the ore was chiseled free and carted to the surface of the open pits or shallow mines in baskets. Once shaft depths increased to between about 10–60 metres hand winches (''Handhäspel'') were used, operated by one or two workers (''Knechten''). The crude ore was placed in wooden buckets for transportation. For the rather short, horizontal gangways leading to the shaft the ore was carried in ''Trogs'' for several centuries (long before the introduction of blasting). In the 17th century the shafts reached depths of between 100 and 200 m. Ore could no longer be removed by hand and horsepower was increasingly used. The horses worked in a cone-shaped building, the ''Göpel'' or ''Gaipel'', which housed a horse whim, a winch that was driven by the horses walking in a circle. The hauling cable (made of natural fibre) or cast-iron chain was wound up and down over a vertical axle. The cable was routed down the shaft and hauled barrels of ore up and down. Due to the shaft's incline, barrels were covered with iron runners on one side, resting partly on the side of the shaft. Above ground at the pithead the ore was emptied out and transported away by horse and cart for processing. From the 18th century shaft depths of several hundred metres were being achieved and horse whims were reaching the limits of their capability. Where the mines were lucrative and their energy consumption high as a result of shaft depth or the ingress of water, water power had been used since the 16th century.

Water wheel A water wheel is a machine for converting the energy of flowing or falling water into useful forms of power, often in a watermill. A water wheel consists of a wheel (usually constructed from wood or metal), with a number of blades or buckets ...

s (''Kunsträder'') drove

piston pump A piston pump is a type of positive displacement pump where the high-pressure seal reciprocates with the piston. Piston pumps can be used to move liquids or compress gases. They can operate over a wide range of pressures. High pressure operation ...

s in order to keep the mine dewatered (''zu Sumpfe'').

Reversible water wheel A water wheel is a machine for converting the energy of flowing or falling water into useful forms of power, often in a watermill. A water wheel consists of a wheel (usually constructed from wood or metal), with a number of blades or buckets ...

s (''Kehrräder'') powered the transportation of ore or winnings. Depending on the terrain conditions the reversible wheels were located either in underground wheel houses (''Radstuben'') near the shaft (the cable drum being set on the same axle as the water wheel) or above ground in the valley. When using the latter method the wheel's rotation was converted into reciprocating motion using a

crank mechanism A crank is an arm attached at a right angle to a rotating shaft by which circular motion is imparted to or received from the shaft. When combined with a connecting rod, it can be used to convert circular motion into reciprocating motion, or vic ...

( ''Krummen Zapfen'') and transmitted over twin flat rods, several hundred metres long, to the shaft. Here, reciprocating motion was re-converted into rotary motion. Due to the availability of water power this system was used until the closure of the Clausthal and Lautenthal Pits in the 1930s (e.g. at the Silbersegen Shaft and the Black Pit or ''Schwarze Grube'').

Steam power A steam engine is a heat engine that performs mechanical work using steam as its working fluid. The steam engine uses the force produced by steam pressure to push a piston back and forth inside a cylinder. This pushing force can be trans ...

was first used in earnest when the stone coal necessary for its operation could be delivered by railway towards the end of the 19th century. Electricity began to be generated at about the same time using water power from the

- an extensive network of ponds, dams, ditches and tunnels, originally built to supply the mines with water power. In 1900 water was passed through

turbine A turbine ( or ) (from the Greek , ''tyrbē'', or Latin ''turbo'', meaning vortex) is a rotary mechanical device that extracts energy from a fluid flow and converts it into useful work. The work produced by a turbine can be used for generating e ...

s and electrical winding engines. At that time modern pits emerged with steel hoist frames. The most important innovation in the Upper Harz hauling technology was the ''Albert Cable'' (''Albert-Seil''). Chief Mining Engineer (''Oberbergrat'') Wilhelm Albert (1787–1846) made a cable out of steel wire which was first successfully tested on 23 July 1834 at the Carolina Shaft. That was the birth of the

. As the distance between shaft and workings lengthened and increasing quantities of material had to be moved, wheelbarrows or small wagons (the ''Hunte'' or ''Hunde'') were used underground as horizontal methods of transportation. Up to 1800 they ran on wooden planks with

flange A flange is a protruded ridge, lip or rim (wheel), rim, either external or internal, that serves to increase shear strength, strength (as the flange of an iron beam (structure), beam such as an I-beam or a T-beam); for easy attachment/transfer of ...

less wheels and guide pins (''Spurnägeln''). Thereafter iron

rail Rail or rails may refer to: Rail transport *Rail transport and related matters *Rail (rail transport) or railway lines, the running surface of a railway Arts and media Film * ''Rails'' (film), a 1929 Italian film by Mario Camerini * ''Rail'' ( ...

s took over, initially as hand-forged rails (''Hammelpfote'') only one metre long. Until 1900 the wagons were almost always pushed by hand.

Pit ponies A pit pony, otherwise known as a mining horse, was a horse, pony or mule commonly used underground in mines from the mid-18th until the mid-20th century. The term "pony" was sometimes broadly applied to any equine working underground.English ...

were not used in the Upper Harz. From 1905 at the Clausthal Ore Mine (''Erzbergwerk Clausthal'') underground haulage was carried out using conductor engines in the gallery known as the ''Tiefsten Wasserstrecke'' or "Deepest Watercourse". In the Grund Ore Mine (''Erzbergwerk Grund'') battery-driven locomotives were used from the 1970s and, finally, diesel engines on wheels with rubber tyres. One feature mining in the Upper Harz was the underground transportation of material in boats on the ''Tiefe Wasserstrecke'' about 300 metres deep, in Clausthal and Zellerfeld from 1835 to 1898.

Movement

Until the beginning of the 19th century the miners of the Upper Harz had to enter and leave the mine using ladders. Towards the end, for shaft depths of around 700 metres this took up to 2 hours of the daily work time. This effort was almost impossible for older miners. In 1833, master miner (''Oberbergmeister'') Georg Ludwig Wilhelm Dörell (1793–1854) came up with a simple, but ingenious mechanical method of getting in and out of the mine, the

. Following successful pilot trials in the Spiegelthal Hope Shaft (''Spiegelthaler Hoffnungsschacht''), a light shaft for the Tiefen George Gallery (''Tiefen-Georg-Stollen'') in Wildemann the first main shaft to be equipped with a man engine was the Duke George William Shaft (''Herzog Georg Wilhelm'') in the Burgstätter Mining Field. The first man engines had wooden rods with a high dead weight. Due to the water wheel drive and frequent bends in the inclined shafts only a few miners could be transported simultaneously to begin with and they had to periodically switch over to ladders. The use of steel wire cables as rods in the Samson Shaft at St. Andreasberg and steel man engines with steam or

drives (Queen Maria Shaft) and Emperor William II Shaft) brought improvements. On the introduction of electrical power around 1900 cable-hauled lifts also became common and remained so until the end. In 1905 passenger trains appeared in the underground galleries for the first time (the so-called ''Leuteförderwagen'' or people-transport wagons).

Preparation of Upper Harz ore

The processing of minerals in the Upper Harz depended on the type of

ore Ore is natural rock or sediment that contains one or more valuable minerals, typically containing metals, that can be mined, treated and sold at a profit.Encyclopædia Britannica. "Ore". Encyclopædia Britannica Online. Retrieved 7 Apr ...

extracted. For example, the density of the Upper Harz lodes was very variable. Unlike the ore at

Rammelsberg The Rammelsberg is a mountain, high, on the northern edge of the Harz range, south of the historic town of Goslar in the North German state of Lower Saxony. The mountain is the location of an important silver, copper, and lead mine, the only min ...

, the

ore mineral Ore is natural rock or sediment that contains one or more valuable minerals, typically containing metals, that can be mined, treated and sold at a profit.Encyclopædia Britannica. "Ore". Encyclopædia Britannica Online. Retrieved 7 April ...

s were less intermingled with one another and the host rock. This enabled, from the beginning of mining operations in the Upper Harz, ore minerals to be processed into concentrations with a higher metal content than that of unroasted ore. In the

until the start of the Early Modern Period the ore was broken up above ground using sledges and sorted by hand into silver, lead and copper ores and

gangue In mining, gangue () is the commercially worthless material that surrounds, or is closely mixed with, a wanted mineral in an ore deposit. It is thus distinct from overburden, which is the waste rock or materials overlying an ore or mineral body t ...

. The pounding stones (''Pochsteine'') or

stamps Stamp or Stamps or Stamping may refer to: Official documents and related impressions * Postage stamp, used to indicate prepayment of fees for public mail * Ration stamp, indicating the right to rationed goods * Revenue stamp, used on documents to ...

used have occasionally been found in recent times during

archaeological excavation In archaeology, excavation is the exposure, processing and recording of archaeological remains. An excavation site or "dig" is the area being studied. These locations range from one to several areas at a time during a project and can be condu ...

s. The use of water power increased around the turn of the 16th and 17th centuries and it began to be employed in processing to enrich the ore concentration. On the one hand water was used as an energy source; on the other it was used to wash out the unwanted clay and to separate ore from gangue by making use of the different

density Density (volumetric mass density or specific mass) is the substance's mass per unit of volume. The symbol most often used for density is ''ρ'' (the lower case Greek letter rho), although the Latin letter ''D'' can also be used. Mathematical ...

of the minerals. The

tailings In mining, tailings are the materials left over after the process of separating the valuable fraction from the uneconomic fraction (gangue) of an ore. Tailings are different to overburden, which is the waste rock or other material that overlie ...

from the washing process were simply emptied into the rivers of the Harz along with the used driving water. The low efficiency of the first ore processing machines resulted in a high content of heavy metals in the rivers. As a consequence of using the aforementioned water-based method of processing the

stamp mill A stamp mill (or stamp battery or stamping mill) is a type of mill machine that crushes material by pounding rather than grinding, either for further processing or for extraction of metallic ores. Breaking material down is a type of unit operatio ...

s (''Pochwerke'') were located in the deeper river valleys. As a rule, they obtained water from the pits, where it had been used to drive water wheels and reversing wheels. Until the beginning of the industrial era, mechanical processing was carried out as follows: * Coarse crushing with a heavy sledge (later with crushing machines). * Wet

screening Screening may refer to: * Screening cultures, a type a medical test that is done to find an infection * Screening (economics), a strategy of combating adverse selection (includes sorting resumes to select employees) * Screening (environmental), a ...

in coarse sieves (

trommel A trommel screen, also known as a rotary screen, is a mechanical screening machine used to separate materials, mainly in the mineral and solid-waste processing industries.Stessel et al. 1996, pp. 558-568. It consists of a perforated cylindrical dr ...

s). The ore is washed (and gangue removed) and sorted by size. * Manual separation (''Handscheidung'') of the coarse lumps of ore, pure ore minerals (so-called rough ores or ''Derberze'') were sorted, dry crushed and went straight on sale (to the smelters). The work on the picking tables (''Klaustischen'') was carried out mainly by women, the elderly and youths. * Washing (''Siebwaschen'') of the 'smalls' (''Grubenkleins'') or ore dust (''Feinerze'') in water-filled jigging tubs (''Setzfässern''). By dipping an ore-filled sieve several times in water the heavier pieces that were more ore-rich, settled in a lower layer. This process was later mechanised using jigging sieves (''Setzmaschinen'', not to be confused with the ''Setzmaschinen'' used in crushing). * Wet stamping (''Nasspochen'') of ore which is more finely mixed with the gangue until it forms a 'sand'. * Separation of the stamped ore on tables (''Herdwäschen'') using gravity. Depending on the design and drive mechanism, they were called vanners (''Planherde''), percussion tables (''Stoßherde'') or rotating tables (''Rundherde''). The fundamental principle was that heavy particles of ore remained on the table and the gangue would be washed away by water. * The slimes or tailings from the preceding set of processes were further separated from the particles of ore in tyes (''Schlammgräben'') by sedimentation. The resulting concentrates (''Schlieg'' or ''Schliech'') were sold to the smelters. The preparation of the different types of ore was carried out as far as possible by visually sorting the concentrates by hand in order e.g. to separate out lead from copper concentrates. After 1850 the small and scattered stamp mills and ore washeries were replaced by central ore dressing plants. The basic steps - coarse crushing - manual separation - sieving - jigging - fine crushing - table work and slime washing - remained much the same. The process was increasingly mechanised and perfected. In 1905 the most modern ore dressing plant in Germany went into operation in Clausthal using the gravity dressing process. It was located near the Ottiliae Shaft on the site of the old central ore processing plant of 1872. It employed up to 650 workers and processed all ore from the Clausthal and Zellerfeld pits until 1930. A change occurred in the 1920s with the introduction of the froth floatation in

Bad Grund Bad Grund (Harz) is a town in the district of Göttingen, in Lower Saxony, Germany. It is situated in the western Harz, approx. 7 km west of Clausthal-Zellerfeld, and 10 km north of Osterode am Harz. Bad Grund is also the name of the ...

and later in

. This technique enabled the required production of metal concentration without manual pre-sorting and a much higher yield. The flotation process was steadily developed during the 20th century and was used right up to the end of vein mining in the Upper Harz in 1992.

Smelting in the Upper Harz

Mining in the Upper Harz is inextricably bound up with

metallurgy Metallurgy is a domain of materials science and engineering that studies the physical and chemical behavior of metallic elements, their inter-metallic compounds, and their mixtures, which are known as alloys. Metallurgy encompasses both the sc ...

. It is the preparation and smelting of ore that enables metals to be extracted and used. Only by adapting and developing the smelting processes over the course of the centuries could mining in the region be maintained, because the lodes changed their primary metal content sharply with increasing depth. The beginnings of smelting go back to the start of mining in the Upper Harz in the

Early Middle Ages The Early Middle Ages (or early medieval period), sometimes controversially referred to as the Dark Ages, is typically regarded by historians as lasting from the late 5th or early 6th century to the 10th century. They marked the start of the Mi ...

. In medieval metallurgy, so-called nomadic smelting (''Wanderverhüttung'') predominated. The smelting sites were only used for a few weeks and followed the logging of the requisite wood. For the

charcoal Charcoal is a lightweight black carbon residue produced by strongly heating wood (or other animal and plant materials) in minimal oxygen to remove all water and volatile constituents. In the traditional version of this pyrolysis process, cal ...

that was needed for the reduction of the ore, oak and beech wood were especially well-suited. The billets of wood were located near the smelting sites. The low

shaft kiln A kiln is a thermally insulated chamber, a type of oven, that produces temperatures sufficient to complete some process, such as hardening, drying, or chemical changes. Kilns have been used for millennia to turn objects made from clay int ...

s (''Schachtöfen'') were built of natural rock and earth from the vicinity, and were by no means simple in their construction. They could only be used for a few days of continuous furnace campaign. Fixed buildings were not erected. Over 200 slag sites and smelting sites have been

archaeologically Archaeology or archeology is the scientific study of human activity through the recovery and analysis of material culture. The archaeological record consists of artifacts, architecture, biofacts or ecofacts, sites, and cultural landscap ...

recorded from this smelting period. Since the 1980s the mining archaeology team of ''Lothar Klappauf'' and ''Friedrich-Albert Linke'' have carried out excavations and undertaken a considerable amount of archeological and archaeometallurgical research. The high medieval smelting technology of the 10th to 12th centuries at the

was well established and complex. The wood dweller (''Silvani''), i.e. those who were doing the smelting in the woodlands, were able to produce copper, lead and silver from the poly-metallic ores of the Rammelsberg.Asmus, Bastian (2012). Medieval Copper Smelting in the Harz mountains, Germany. Bochum. In the second major phase of mining in the Upper Harz from 1524, smelting was gradually moved into fixed sites. The transportation of logs as

rafts A raft is any flat structure for support or transportation over water. It is usually of basic design, characterized by the absence of a hull. Rafts are usually kept afloat by using any combination of buoyant materials such as wood, sealed barrels ...

and the use of water power led to the selection of advantageous sites on the rivers in the Harz - such as the

Innerste The Innerste is a river in Lower Saxony, Germany. It is a right tributary of the Leine river and in length. Origin of the name The river name is not related to the German word ''innerste'' meaning innermost. ''Innerste'', in earlier times c ...

, Grane and

Oker The Oker is a river in Lower Saxony, Germany, that has historically formed an important political boundary. It is a left tributary of the River Aller, in length and runs in a generally northerly direction. Origin and meaning of the name The ...

. At one location that had already been used in medieval times (1180), the ''Frankenscharrn Hut'' emerged, which later became the Clausthal Lead Smelting Works (''Bleihütte Clausthal''), the most famous one in the Upper Harz. It was worked until 31 December 1967. Other important smelters were the silver works (''Silberhütte'') in

(later merged with the ''Bleihütte Clausthal''), the silver works in

(to 1911) and the Andreasberg Silver Works (''Silberhütte Andreasberg'', to 1912). After the Upper Harz metal works were closed the ores of the remaining Grund Ore Mine were reduced in the Upper Harz works (to 1981) and finally in the Binsfeldhammer Lead Works near Aachen. The various metalworks, especially the Clausthal Works left behind considerable environmental damage. By contrast, the buildings and facilities in the Upper Harz have completely disappeared. From the first mining period until just before the industrial age the so-called precipitation method (''Niederschlagsarbeit'') was used in the Upper Harz. Instead of the usual roasting (desulphurising) of the ore, the slag was melted using charcoal with granulated iron (''Eisengranalien'') as a reduction medium using the roast-reaction process (''Röst-Reaktions-Verfahren'') (direct conversion from metal sulphide to metal) in arched kilns (''Krummofen''). The comparatively low kiln temperatures of around 1000 °C produced no liquid slag, the residue (gangue) remained in solid form. Not until the development of more powerful fan shaft kilns around 1850 were the concentrates roasted in double-deck ovens (''Etagenöfen'') and sintering pans and then melted in crucible shaft kilns (''Tiegelschaftofen'') on silver-containing argentiferous lead (''Werkblei'') and molten slag. The argentiferous lead was initially worked immediately in the German tests on lightened silver. At the start of the 20th century a multi-stage refining process was carried out in ''Kesselherden'' and silver extracted using the

Parkes process The Parkes process is a pyrometallurgical industrial process for removing silver Silver is a chemical element with the Symbol (chemistry), symbol Ag (from the Latin ', derived from the Proto-Indo-European wikt:Reconstruction:Proto-Indo-Europ ...

Mining and forestry

The steadily rising demand for wood from the pits and smelting works led to overexploitation of the forests by the

. Construction wood was needed above ground for accommodation huts as well as mining and smelting buildings. Below ground it was needed to extend the pits. The greatest consumption of wood, however, was for the smelting of ore with

. There were some 30,000 wood billets in the Harz alone. By the Early Middle Ages ore had to be transported over kilometres to the smelting works due to the lack of wood. One particularly well-known route is the transportation road from Goslar's Rammelsberg on the northern edge of the Harz over the Upper Harz to Riefensbeek and Kamschlacken on its southern perimeter. Traces of the road may be seen at many places in the Upper Harz forests. From the 18th century a systematic reforestation of the largely destroyed forests was begun. As a result, the Upper Harz contributed significantly to the development of modern

forestry Forestry is the science and craft of creating, managing, planting, using, conserving and repairing forests, woodlands, and associated resources for human and environmental benefits. Forestry is practiced in plantations and natural stands. Th ...

. Although not typical of the region, fast-growing

spruce A spruce is a tree of the genus ''Picea'' (), a genus of about 35 species of coniferous evergreen trees in the family Pinaceae, found in the northern temperate and boreal (taiga) regions of the Earth. ''Picea'' is the sole genus in the subfami ...

trees were exclusively grown in

monoculture In agriculture, monoculture is the practice of growing one crop species in a field at a time. Monoculture is widely used in intensive farming and in organic farming: both a 1,000-hectare/acre cornfield and a 10-ha/acre field of organic kale are ...

s. The consequences of this intensive forestry, which continued until the 1970s, are still to be seen in many areas of the Upper Harz today. Because the shortage of wood was time and again one of the limiting factors for mining and smelting, the forestry situation was a standing agenda item at meetings in the mining office.

References

Sources

* Bastian Asmus (2012), Medieval Copper Smelting in the Harz Mountains, Germany. Bochum: Deutsches Bergbaumuseum. * * * * *{{citation, surname1=Dieter Stoppel, title=Gangkarte des Oberharzes , publisher=Bundesanstalt für Geowissenschaften und Rohstoffe, publication-place=Hannover, date= 1981, language=German

External links

Upper Harz Mining Museum

Lehrbergwerk Roter Bär St. Andreasberg
Medieval Germany Early Modern history of Germany History of mining in Germany Technology in the Middle Ages