Fact-checked by Grok 2 weeks ago

Garzweiler surface mine

The Garzweiler surface mine (Tagebau Garzweiler) is an opencast lignite mine located in the districts of Rhein-Kreis Neuss and Heinsberg in North Rhine-Westphalia, Germany, operated by RWE Power. Lignite extraction in the Garzweiler coalfields has occurred for over a century, with the modern operation utilizing massive bucket-wheel excavators and an extensive network of conveyor belts spanning 80 kilometers to transport 20 to 25 million tonnes of lignite annually to nearby power stations such as Neurath and Niederaussem. This output has historically underpinned a significant portion of Germany's baseload electricity generation, leveraging the low-cost, reliable fuel source inherent to domestic lignite deposits up to 210 meters deep. The mine's expansions, including Garzweiler II approved in 1995, have required the legal relocation and demolition of over 20 villages since the mid-20th century to access reserves estimated at around 160 million tonnes in the II sector alone, prioritizing energy security amid post-war reconstruction and industrial needs. While providing economic benefits through employment and affordable power, the operation has drawn scrutiny for landscape alteration, groundwater impacts, and contributions to CO2 emissions, though recultivation efforts have restored over 80 square kilometers to agriculture, forestry, and biodiversity-enhancing uses, including wind farms. Under Germany's Coal Phase-out Act, mining at Garzweiler is scheduled to end by 2030, with a potential three-year extension for supply stability, marking the transition from lignite-dependent energy production.

History

Origins and Initial Development

The Garzweiler surface mine's origins trace to extraction in the Rhenish coalfields, where activities commenced over a century ago, initially within the limits of before expanding into surrounding municipalities. Early operations in the specific Garzweiler I area, known then as the Neurath pit, began around 1940 as an open-pit mine in the Bedburg region of . By 1950, mining in the Frimmersdorf vicinity involved two primary pits: Neurath and Heck, which supplied to nearby power stations and marked the initial mechanized development phase using bucket-wheel excavators typical of postwar German brown coal operations. These pits merged in 1960 to form Frimmersdorf Süd, while a parallel Frimmersdorf West pit developed concurrently to the west of Gindorf, incorporating external overburden dumps such as Vollrather and Neurather Höhe. This consolidation reflected economic pressures to scale up production efficiency amid Germany's postwar demands, with RWE's predecessors managing the fields under state-influenced . The modern Garzweiler opencast mine emerged in 1983 through the administrative and operational merger of Frimmersdorf Süd and West fields, establishing a unified large-scale surface mine under Power AG's control. This restructuring enabled deeper excavation into seams, prioritizing output for the adjacent Neurath and Frimmersdorf power plants, with initial annual production ramping to support baseload . The development prioritized geological feasibility and cost reduction via continuous techniques, though it later drew scrutiny for environmental displacement.

Major Expansion Phases

The Garzweiler surface mine originated with the Neurath pit, forming the core of Garzweiler I, where extraction began around 1940 as part of broader operations in the Rhenish coalfields that date back over a century. A pivotal expansion phase commenced with the approval of Garzweiler II in , enabling access to additional reserves through the relocation of and settlements; active in this field started in 2006, significantly increasing the site's scale to approximately 48 km² for Garzweiler II alone. Subsequent expansions in the focused on integrating these fields, with the overall operating area reaching about 80 km² by 2023, though Germany's accelerated to 2030—formalized in 2022—halted plans for further village demolitions beyond , whose clearance began in January 2023 to support limited extraction of roughly half the originally projected volume.

Key Milestones in Operations

The Garzweiler surface mine initiated extraction in 1940 through the Neurath , establishing the foundational operations of Garzweiler I with mechanized open-cast methods. This early phase leveraged bucket-wheel excavators and conveyor systems, contributing to regional output exceeding 60 million tonnes annually by the early 1940s across the fields, of which Garzweiler formed a key component. Mining expanded significantly in 2006 with the commencement of operations in the Garzweiler II sector, integrating additional removal and handling infrastructure to exploit deeper seams up to 210 meters. This phase boosted overall capacity, enabling three-shift operations across an area of approximately 80 square kilometers by the late 2000s. Annual production peaked at 35 million tonnes in 2017, reflecting optimized excavation with around 80 bucket-wheel excavators and spreaders handling 80-110 cubic meters per second. Output subsequently declined to 19-24 million tonnes per year from onward, influenced by reduced demand and policy-driven curtailments under Germany's framework. In late 2024, confirmed the termination of mining at Garzweiler by 2030, accelerating the site's closure from prior projections of 2045 and halving remaining extraction volumes to align with national decarbonization targets. This endpoint will conclude active operations, transitioning the site toward recultivation while maintaining temporary power plant linkages if mandated for .

Location and Geology

Geographical Setting

The Garzweiler surface mine occupies a position in the Rhenish district of western , specifically within the state of . It primarily spans the Rhein-Kreis and districts, with extensions into the Rhein-Erft-Kreis, encompassing an operating area of approximately 80 square kilometers. The site is situated west of the town of and progresses eastward toward , within coordinates roughly at 51° 5' N and 6° 30' E . This geographical setting features the flat, sedimentary terrain of the Basin, a region dominated by agricultural farmlands, interspersed with green spaces and installations such as wind farms. The landscape supports open-habitat , including species adapted to expansive plains, and lies in an area historically shaped by deposits formed in sedimentary layers. The temperate (Köppen Cfb) prevails, with mild temperatures and moderate precipitation facilitating the region's agricultural productivity prior to mining activities.

Geological Characteristics

The Garzweiler surface mine is situated within the Embayment, where deposits of the Miocene Formation are exploited. These deposits formed in a paralic environment characterized by nutrient-depleted coastal swamps during the Early to Mid-. The Ville Formation features a main lignite seam that laterally subdivides into three principal seams from bottom to top: the Morken Seam (, approximately 10–12 m thick), the Frimmersdorf Seam, and the uppermost Garzweiler Seam, separated by intercalated transgressive sand units. The occurs in three overlying beds with a total average thickness of 40 meters, lying at depths ranging from 40 to 210 meters in the Garzweiler area. Overburden consists primarily of and sediments, with thicknesses up to 300 meters across the broader fields. The seams contain irregularly distributed sand bodies, including syn-depositional, post-depositional, and injectite features derived from underlying sands, which influence mining operations by creating variable seam continuity. These geological heterogeneities stem from tectonic subsidence and fluvial-deltaic influences in the basin.

Operations

Mining Techniques and Equipment

The Garzweiler surface mine utilizes open-cast strip mining techniques tailored to the soft deposits in the region, where is systematically removed to expose multiple seams typically 10 to 30 meters thick. , primarily consisting of sands, gravels, and clays averaging 100 to 200 meters in depth, is excavated continuously using bucket-wheel excavators (BWEs) that rotate a large wheel fitted with multiple buckets to scoop and load material directly onto integrated conveyor systems. This method allows for high-volume removal, with the excavated transported via belt conveyors to spreaders for deposition in external dumps, minimizing truck usage and enabling efficient progression of the mining face. Following stripping, extraction employs similar continuous BWE operations, where machines dig into the exposed seams and discharge the onto conveyors for immediate transport to on-site stockpiles or loading facilities. The process advances the in a directional sequence, with levels managed through pumps to maintain dry working conditions, as mining requires open pits below the . Operations run on a three-shift schedule, yielding 20 to 25 million tonnes of per year, supported by a network of approximately 80 kilometers of conveyor belts for internal . Key equipment includes heavy-duty BWEs such as the , a rotary excavator weighing 13,500 tonnes with a 21-meter-diameter bucket wheel capable of excavating up to 240,000 cubic meters of material per day in soft formations like and . These machines, numbering in the dozens across RWE's Rhineland operations including Garzweiler, feature capacities ranging from 8,000 to 10,000 cubic meters per hour and are powered by electric systems drawing from the regional grid. Spreaders complement the BWEs by receiving and distributing across dump sites, while auxiliary equipment like dozers and graders handles site preparation and maintenance.

Production and Output

The Garzweiler surface mine maintains an annual lignite production capacity of 20 to 25 million metric tons through a continuous three-shift operation system. This output supports adjacent power stations, including Neurath and Niederaussem, where the lignite is combusted for baseload . Production volumes have varied in recent years due to operational adjustments and Germany's policies. In 2020, the mine yielded 19.35 million metric tons of , rising to 23.4 million metric tons in 2021 amid increased demand following nuclear phase-out and energy shortages. Estimates for 2022 place output at 23 to 25 million metric tons, consistent with the mine's operational range. For 2023, production is approximated at 20 to 22 million metric tons, reflecting a broader 30% decline in RWE's output to approximately 49 million metric tons across its three mines. The extracted , characterized by its high moisture content and low calorific value, is processed minimally on-site before conveyor transport, minimizing handling losses. Total recoverable reserves under current licenses exceed 1 billion metric tons, enabling sustained output through 2045 barring policy changes. However, Germany's legislated coal exit by 2038, with potential earlier cessation for assets by 2030 under negotiated agreements, anticipates reduced production volumes in the coming decade to align with emissions targets.

Associated Infrastructure

The Garzweiler surface mine relies on an integrated network of conveyor belts and industrial ways for transport, enabling efficient delivery to nearby power generation facilities. The includes approximately 80 kilometers of conveyor belts, which handle the movement of 20 to 25 million tonnes of extracted annually in three-shift operations. These belts, supplemented by lines, connect directly to the Neurath and Niederaussem power stations, where the fuel supports base-load production. The Neurath , bordering the mine area, processes from Garzweiler via dedicated transport links, operating multiple supercritical units with a combined exceeding 4,000 MW for flexible grid support. In parallel, the adjacent Niederaussem , Germany's largest -fired facility at 2,220 MW net , receives Garzweiler through the same conveyor and rail infrastructure for combustion in its boiler systems. Specialized conveying systems, such as those upgraded for handling in expansion projects, ensure reliable feedstock blending and dust-controlled transfer to these plants. Supporting on-site operations, the infrastructure incorporates heavy-duty equipment interfaces, including discharge booms and mobile conveyors aligned with bucket-wheel excavators, facilitating and segregation before external dispatch. Recent additions include rail logistics for materials like pipes destined for post-mining lake formations, underscoring the mine's ties to regional reclamation efforts. These elements collectively form a closed-loop system optimized for high-volume throughput until planned cessation around 2030, subject to supply security extensions under Germany's framework.

Transportation and Logistics

Overburden and Coal Handling

In the Garzweiler surface mine, removal precedes extraction and is primarily accomplished using large bucket-wheel excavators (BWEs), such as models weighing up to 13,000 s produced by manufacturers including , O&K, and MAN Takraf. These machines, with some capable of handling up to 240,000 cubic meters of material per day, excavate the layers of soil, sand, , and rock overlying the seams, which can reach depths of up to 500 meters in formations. The average at the site is approximately 4.9 to 5 cubic meters of per of , reflecting the substantial volume required to access the resource. Overburden handling involves continuous transport via an extensive network of over 266 kilometers of conveyor belts, which move the excavated material to 19 stackers and spreaders for deposition. These spreaders, operating at capacities of 80 to 110 cubic meters per day each, deposit the onto external dumps forming artificial hills or internally for backfilling previously mined areas as part of site rehabilitation efforts. In some cases, such as around , is directed toward backfilling older pits to minimize long-term landscape alteration. This process supports the mine's three-shift operations, which remove millions of cubic meters annually to sustain production. Lignite extraction follows overburden removal, employing similar BWE technology on a scale suited to the softer seams, with the utilizing up to 80 such excavators across operations. The extracted , typically from multiple seams after interburden clearance, is immediately loaded onto conveyor belts for handling, bypassing extensive crushing or washing due to its high moisture content and direct use in power generation. Annual output reaches 20 to 25 million tonnes, transported over 80 kilometers of dedicated conveyors to nearby power stations at Neurath and Niederaussem, supplemented by a 300-kilometer rail network for longer hauls or contingencies. This integrated system minimizes on-site storage and ensures efficient delivery, with operations projected to continue until at least 2030.

Rail and Road Networks

The Garzweiler surface mine relies on an extensive network for the primary transport of and within the Rhineland lignite mining district operated by . Lignite extracted from the mine is transported via this railway system, alongside conveyor belts, to adjacent power stations such as Neurath and Niederaussem for . The broader Rhineland operations encompass approximately 300 km of dedicated rail track, facilitating the movement of to external dumps and to processing and power facilities, with a fleet supporting efficient across opencast sites. This internal rail infrastructure minimizes road dependency for bulk haulage, enabling high-volume logistics in a region characterized by large-scale . Road networks serve auxiliary roles, including site access for personnel, maintenance vehicles, and occasional specialized transports, but are secondary to and conveyor systems for . Public infrastructure has been significantly altered due to mining ; for instance, a 7 km section of the A44 motorway was relocated and rebuilt atop an dump, with the underlying material reaching a maximum thickness of 185 m, necessitating engineering assessments for long-term settlement stability. In August 2023, severed the L12 connection between Holzweiler and Keyenberg to accommodate further mine development, impacting local traffic patterns and underscoring the prioritization of mining logistics over preexisting routes. These modifications reflect the causal trade-offs in , where displacement and pit necessitate infrastructure reconfiguration to sustain output while managing regional connectivity.

Economic Role

Employment and Regional Contributions

The Garzweiler surface mine, operated by as part of the Rhenish lignite district in , supports direct employment of approximately 9,000 workers across the region's lignite mines and associated power plants, including those fed by Garzweiler's output. This figure encompasses operations at Garzweiler, Hambach, and Inden mines, where lignite extraction and processing require specialized labor in excavation, overburden removal, and maintenance. links around 7,500 jobs company-wide to lignite activities, predominantly in this district due to geological constraints favoring opencast mining. Beyond direct roles, the district's sector induces 14,338 indirect jobs in supplier chains, , and ancillary services, sustaining local businesses in equipment provision, transportation, and engineering. These multipliers arise from procurement demands, with prioritizing regional suppliers to bolster economic stability amid production of 20-25 million tonnes of lignite annually at Garzweiler alone. Historically, since the 1800s, such has anchored industrial growth in the 2.5 million-inhabitant , generating tax revenues and funding like networks for handling. Economic contributions extend to value added, with the Rhenish lignite operations contributing substantially to regional GDP through energy supply to nearby plants like Neurath and Niederaussem, which rely on Garzweiler lignite for baseload power. In 2015 assessments, the sector's output supported broader fiscal transfers, including federal and state allocations exceeding €5 billion for structural adjustments in , reflecting mining's role in offsetting rural depopulation risks. While employment has declined from peaks of over 11,000 in the Rhineland lignite fields around 2000, ongoing operations mitigate immediate job losses via recultivation projects that create ancillary roles in land restoration and on reclaimed sites.

Energy Supply and National Importance

The Garzweiler surface mine supplies primarily to RWE-operated power stations Neurath and Frimmersdorf, enabling base-load for industrial and residential consumers across . Annual extraction at the site reaches 20 to 25 million tonnes, with 23.4 million tonnes reported in 2021, supporting the fuel requirements of these facilities through dedicated conveyor systems. Neurath Power Station, for example, processes from Garzweiler to deliver flexible, high-output power, while Frimmersdorf has cumulatively produced nearly 1,000 billion kilowatt-hours since its inception, equivalent to supplying a major city like for decades. As part of the Rhineland lignite region, Garzweiler contributes to Germany's domestic energy production, where remains the second-largest source of after renewables, providing dispatchable that counters the variability of and . The associated power plants in the area boast a combined exceeding 8 gigawatts, ensuring stability and meeting peak demands. This role gained heightened prominence after the 2022 disruption of Russian gas supplies, prompting the reactivation of lignite units to enhance security and avert shortages. Nationally, the mine underscores lignite's strategic value as an indigenous resource, with Germany's reserves exceeding 35 billion tonnes, reducing reliance on imported fuels amid geopolitical tensions and the transition. Despite the legislated phase-out by 2038, Garzweiler's output—alongside sites like Hambach—sustains approximately 60 million tonnes of annual consumption for key plants, bolstering and economic resilience in a context of fluctuating renewable integration.

Environmental Considerations

Emissions and Atmospheric Impacts

The primary atmospheric emissions from the Garzweiler surface mine operations stem from dust generated during excavation and removal, with (PM) constituting the dominant pollutant directly attributable to activities. RWE, the mine's operator, identifies PM and as the key emissions from open-cast lignite extraction, implementing measures such as spraying, wind barriers, and selective extraction techniques to limit dispersion in coordination with regulatory authorities. A peer-reviewed estimates the externalities from lignite dust at approximately 3 euros per tonne of lignite extracted, equivalent to about 5 euros per megawatt-hour of associated energy output, reflecting localized impacts on air quality without accounting for combustion-related effects. The mine's lignite output, averaging around 35 million tons annually, is transported directly to nearby power stations including Neurath and Niederaussem for combustion, resulting in substantial indirect . Lignite combustion at these facilities, fueled predominantly by Garzweiler-sourced , has historically generated approximately 75 million tons of CO2 annually across the connected plants, with Neurath alone averaging about 31 million tons of CO2 per year as of 2016 data. These emissions arise from lignite's high carbon content and moisture levels, yielding roughly 900-1,100 grams of CO2 per generated, far exceeding those of harder coals or gas. Projections for full operation of Garzweiler II until 2045 indicate cumulative CO2 releases of up to 800 million tons if extraction proceeds as planned. Beyond CO2, atmospheric impacts include (SO2), nitrogen oxides (NOx), and additional from stack emissions at the power plants, contributing to regional and formation despite installed and systems. Local fallout from has prompted resident complaints of reduced air quality, with studies noting elevated particulate levels and associated health risks in proximity to operations. These effects underscore lignite's role in Germany's high per capita CO2 footprint from , though reports overall group emissions declining to 62 million metric tons of CO2 equivalent in 2023 amid partial phase-out efforts.

Land Alteration and Reclamation Efforts

The Garzweiler surface mine alters the landscape through large-scale removal to access seams, excavating pits up to hundreds of meters deep and displacing vast volumes of , , , and clay. The operation currently spans approximately 3,200 hectares, with expansion plans reaching 11,400 hectares, necessitating the relocation of material to spoil heaps and the of over areas exceeding 90 square kilometers in some formations. This process destroys existing , , and hydrological patterns, creating artificial relief changes including steep slopes and depressions that persist until backfilling. Reclamation efforts by operator begin during active mining, focusing on restoring soil fertility, , and usability through backfilling, soil replacement, and revegetation. In the Garzweiler area, approximately 900 hectares have been dedicated to reclamation using mixes of and gravel substrates, planting adapted to local conditions such as in varied zones, while 3,640 hectares support agricultural restoration with measures like flowering strips, hedges, and fallows to enhance . Across the broader district including Garzweiler, 200 square kilometers of the 290 square kilometers affected have been reclaimed, yielding 103 square kilometers of agricultural land on pure and , 77 square kilometers of , and 20 square kilometers of bodies or wetlands. Post-mining plans for Garzweiler center on converting the exhausted pit into a residual lake spanning 2,215 hectares and reaching depths of 190 meters, filled over 40 years via controlled Rhine River water inflow to stabilize the landscape and create aquatic ecosystems. A collaborative strategy, developed through 2016 expert workshops, outlines short-, medium-, and long-term measures until 2086, emphasizing economic viability, social integration, and landscape reconnection via features like a "green ribbon" corridor, innovation valleys, and experimental zones managed by the Zweckverband Tagebaufolge(n)landschaft Garzweiler. For Garzweiler, Hambach, and Inden mines combined, reclamation mandates a net forest increase of 1,900 hectares, incorporating relocated waterways such as a 5-kilometer section of the Inde River to support diverse post-mining habitats. Operations are set to conclude by 2030, potentially extending to 2033, with adjustments reflecting Germany's coal phase-out legislation.

Social and Relocation Dynamics

Village Evacuations and Resettlements

The expansion of the Garzweiler II surface mine, approved in the , has necessitated the evacuation and resettlement of several villages located over seams in North Rhine-Westphalia's region. Residents were typically offered compensation by at plus premiums for relocation, with properties purchased voluntarily or through compulsory acquisition under German law. Historical relocations include the village of Immerath, where evacuation progressed from the late , with the majority of residents resettled to the newly constructed Neu-Immerath by ; the village's , a focal point of local heritage, was demolished in September 2018 to facilitate further . Lützerath, a small former settlement with fewer than 12 original households, saw its residents depart voluntarily by April 2017 after acquired properties starting in 2006. Although uninhabited by locals, the site became occupied by climate activists from 2020 onward; evicted approximately 500 protesters between January 10 and 13, 2023, clearing barricades and structures to enable demolition, which commenced on January 11, 2023, for subsequent until the planned 2030 coal exit. Five villages—Keyenberg, Kückum, Berverath, Oberwestrich, and Unterwestrich—initially faced evacuation starting in 2023 for resettlement to a planned new community site accommodating around 1,000 residents. However, following the German government's October 2022 agreement to accelerate phase-out to 2030 amid needs, announced in January 2023 that these villages, along with three farmsteads (Eggeratherhof, Roitzerhof, and Weyerhof), would remain intact, halting further relocations and preserving approximately 500 households. This decision reflected revised extraction plans reducing output by half, prioritizing reserves under for short-term supply and long-term recultivation.

Community Compensation Mechanisms

RWE, the operator of the Garzweiler surface mine, implements community compensation mechanisms for relocations under agreements with the state of , formalized in the 2004 Compensation Declaration (with amendments in 2011 and 2013), which exceed the minimum requirements of the Federal Mining Act (BBergG §§ 84 ff.). These mechanisms aim to preserve residents' asset values by providing a package of financial payments, natural benefits, and surcharges, calculated via independent appraisals under the Property Valuation Ordinance (ImmoWertV). assessments consider factors such as land size, location, usability, and building type, quality, standard, and condition, enabling affected individuals to acquire comparable or improved properties at relocation sites. Core components include monetary compensation for the appraised traffic value of expropriated properties, supplemented by owner-occupier premiums adjusted via standardized guidelines, coverage of relocation and acquisition costs (such as exemptions for new land purchases), and in-kind provisions like allocated replacement plots in planned new settlements. For villages like Immerath, fully relocated by 2018 to the newly constructed Neu-Immerath with modern infrastructure including schools, churches, and utilities, facilitated either cash equivalents or direct construction of equivalent housing, affecting around 1,000 residents who received options for structurally comparable new homes. Tenants and non-homeowners receive tailored side compensations, while farmers or businesses impacted by Garzweiler expansions may claim additional reimbursements for operational disruptions. The process emphasizes voluntary agreements through extended consultations and counseling by and local authorities, as seen in preparations for Keyenberg's relocation starting in 2016, where property valuations precede binding sales contracts without rushed timelines. Compulsory relocations, if necessary, follow legal expropriation but incorporate the same enhanced package to mitigate hardship. Approximately 5,000 individuals across affected sites, including Garzweiler, have been resettled under this framework, with nearly half opting for voluntary sales prior to mandates. While describes the approach as fair, generous, and low-bureaucracy, some relocatees from Garzweiler II-affected areas like Keyenberg have demanded augmented payments to address perceived inadequacies in covering life adjustments until encroachment.

Controversies and Opposition

Activist Protests and Occupations

Activist groups, particularly Ende Gelände, have organized multiple actions at the Garzweiler mine since 2015 to oppose extraction and its contribution to . On August 15, 2015, approximately 1,500 participants occupied parts of the open-pit site, halting operations temporarily as part of a mass action targeting Europe's largest CO2-emitting facility at the time. Similar occupations occurred in 2017, involving over 6,000 activists who blockaded access routes and mine infrastructure to disrupt coal transport. In June 2019, around 1,000 Ende Gelände activists breached police lines to occupy the Garzweiler mine, blocking conveyor belts and rail lines for over a day before dispersing voluntarily; the action aimed to symbolize the "end of dependency" and drew international attention to regional . These non-violent direct actions, repeated in subsequent years, involved tactics such as human chains, site occupations, and shutdowns, often resulting in temporary halts to mining but facing countermeasures from authorities including barricade removals and participant detentions. Protests intensified around the planned expansion of Garzweiler II, which required the demolition of village; activists began occupying the site in 2020, constructing treehouses, , and underground tunnels to resist . By late 2022, most original residents had relocated under prior agreements, leaving the village primarily to protesters who framed their presence as against "ecological catastrophe." operations commenced on January 10, 2023, with dismantling structures and removing hundreds of occupants, including from elevated platforms and subterranean hideouts; clashes ensued, though organizers emphasized non-violence. A large demonstration on January 14, 2023, drew between 10,000 (police estimate) and 35,000 (organizer claim) participants, including figures like , marching against the mine's extension despite Germany's commitments; side incidents involved property damage, leading to further arrests. The eviction concluded by January 21, 2023, enabling site clearance, though activists continued sporadic actions, underscoring persistent opposition to the mine's role in delaying exit amid debates post-2022 crisis.

Political and Legal Challenges

The expansion of the Garzweiler surface mine has faced repeated legal scrutiny, particularly concerning expropriation and resettlement of affected residents. In a landmark 2013 ruling by Germany's , the court strengthened legal protections for individuals impacted by mining-related displacements, emphasizing the need for adequate compensation and procedural fairness in cases involving the mine's operations, while upholding the overall permissibility of further excavation under certain conditions. Subsequent challenges included a 2020 constitutional complaint filed by villagers opposing resettlement for the mine's expansion in , arguing violations of property rights and environmental standards, though the case highlighted tensions between local impacts and national without immediate halt to operations. Politically, opposition has centered on environmental and climate concerns, with groups like and the advocating for mine contraction amid Germany's commitments. However, the federal government's decision to permit expansion of Garzweiler II—allowing access to reserves under the village of —was driven by energy security imperatives following Russia's invasion of and reduced gas supplies, extending lignite use beyond initial 2038 targets to 2030 in . This approval, endorsed by Economy Minister of the Greens despite intra-party dissent, underscored conflicts between short-term reliability and long-term decarbonization, as the mine supplies baseload power to RWE's plants amid grid stability challenges. The eviction in January 2023 crystallized these tensions, with police clearing hundreds of activists after prolonged occupations protesting the demolition of the hamlet to access an estimated 237 million tonnes of reserves, equivalent to years of national supply. Critics, including international figures like , framed the action as prioritizing fossil fuels over climate goals, damaging Germany's global environmental reputation, while proponents cited empirical energy shortages—such as the 2022 shortfall in renewables capacity—as justifying the move to avert blackouts. Legal bids to block the expansion, including appeals on emissions and , have largely failed, with courts balancing mining rights against broader public interest in energy provision, though affirming potential future liability for major emitters like in climate damage suits.

Regulatory Framework

Permitting and Approvals

The Garzweiler surface mine's permitting falls under Germany's Federal Mining Code (Bundesberggesetz, BBergG), with approvals handled by authorities, including mining offices and district governments (Bezirksregierungen). The core plan for Garzweiler II (Braunkohlenplan Garzweiler II) was formally approved by the NRW Ministry of the Environment, Spatial Planning, and Agriculture on March 31, 1995, following a multi-stage process that included geological assessments, economic justification under , and preliminary public notifications to the . This plan delineated extraction boundaries, timelines, and infrastructure, enabling to proceed with opencast operations starting in 2006. Subsequent operational approvals, such as framework operating plans (Rahmenbetriebspläne), require plan approval procedures (Planfeststellungsverfahren) that integrate environmental impact assessments (Umweltverträglichkeitsprüfungen) mandated by EU Directive 2011/92/EU and Germany's Environmental Impact Assessment Act (UVPG). These encompass air quality, water management, and evaluations, with phases allowing objections. Water rights permits, essential for the pit, are issued separately; for instance, the Arnsberg District Government granted a continuation permit for Garzweiler II dewatering on December 14, 2023, covering the period through 2030. Approvals originally projected Garzweiler II operations to 2045 but were curtailed in 2018 to align with phase-out goals, limiting full expansion and setting a 2030 endpoint under the 2020 Structural Development Accompanying Act (Strukturentwicklungsgesetz), with allowances for up to three years' extension for if invoked by federal decree. Legal challenges to these permits have centered on property expropriations and proportionality under , yet courts have consistently upheld them. The , in its December 17, 2013 ruling on cases 1 BvR 3139/08 and others, affirmed the Düren Mining Office's approval notifications and framework plans as compliant with Article 14 (property rights) of the , rejecting claims of inadequate compensation or procedural flaws in the multi-level approval cascade. More recently, the Higher Administrative Court of dismissed appeals against Garzweiler II expansions in March 2022, confirming RWE's entitlement to proceed despite phase-out timelines, as permits predate the 2038 national exit target and serve documented needs. The 2020 phase-out law's specific "Garzweiler clause" (Section 48) explicitly deems the mine's continuation economically and energetically necessary, insulating it from retroactive revocation absent overriding security rationales.

Alignment with Phase-Out Policies

The German Coal Phase-Out Act of 2020 mandates the cessation of hard coal mining by 2030 and mining by 2038, with provisions for flexibility in cases of needs. For the Rhenish lignite district, encompassing Garzweiler, an October 2022 agreement between the federal government, state, and accelerated the timeline, committing to end extraction by 2030—eight years ahead of the national target—to reduce emissions by an estimated 280 million metric tons of CO2 equivalent. This adjustment aligns Garzweiler's operations with the expedited phase-out by halving planned extraction volumes, from approximately 400 million tonnes to around 200 million tonnes, while preserving five villages and three farmsteads from demolition that were previously slated for mine expansion. However, the deal permitted the demolition of village to access reserves deemed necessary for bridging energy supply gaps until 2030, reflecting a trade-off between accelerated closure and short-term operational continuity amid the triggered by reduced Russian gas imports. has stated that production at Garzweiler will cease in 2030, with no further extensions planned beyond potential temporary power plant activations for grid stability, though the approved state aid for this transition in December 2023. Critics, including environmental groups, argue that continued expansion until 2030 undermines full alignment with Germany's 2030 emissions targets under the , as Garzweiler's output powers nearby plants like Neurath and Niederaussem, which remain operational. Nonetheless, the agreement incorporates structural aid exceeding €10 billion from the federal government to facilitate RWE's shift to renewables, ensuring the mine's wind-down supports broader decarbonization without indefinite prolongation. This framework positions Garzweiler as a case of pragmatic alignment, prioritizing verifiable emission reductions over immediate halt, with monitoring by the Coal Phase-Out Commission to enforce compliance.

Future Trajectory

Operational Wind-Down Plans

In October 2022, reached an agreement with the German federal government to accelerate the phase-out of mining in the Rhenish area, committing to end operations at the Garzweiler mine by the end of 2030, earlier than the national exit deadline of 2038. This deal halves the projected extraction volume from Garzweiler compared to prior plans extending to 2045, limiting total output to approximately 1.1 billion tonnes while prioritizing amid the 2022 crisis. The arrangement includes potential temporary extensions of mining if grid stability requires it, but has affirmed readiness to cease lignite-based by 2030 without such measures. Operational scaling involves progressive reduction in excavation activities, with mining fronts shifting eastward to access remaining reserves before final backfilling begins post-2030. RWE's strategy emphasizes orderly decommissioning, including equipment relocation to other sites where feasible and compliance with federal reclamation mandates under the Mining Act, though specific timelines for machinery phase-out remain tied to extraction quotas approved annually. The 2022 law accelerating the Rhenish exit formalizes these constraints, prohibiting further expansions and enforcing extraction caps to align with the 2030 target. This wind-down supports Germany's broader emissions reduction goals, projecting avoidance of 280 million metric tons of CO2 equivalents from foregone lignite combustion. However, implementation depends on renewable energy ramp-up and infrastructure to offset lost capacity, with RWE investing in grid enhancements as part of the agreement. Monitoring by the Federal Network Agency ensures adherence, with progress reports potentially advancing the closure if targets are exceeded.

Post-Mining Transition

Following the cessation of extraction at the Garzweiler mine, anticipated by 2030 under Germany's accelerated agreement with , the site will undergo recultivation to restore functionality to the landscape. This process, mandated by German mining law, has already recultivated approximately 80 km² of land as of late , primarily converting dumps into agricultural fields and forested areas to support farming and , including habitats for open-land species. The primary post-mining feature for the open pit itself involves flooding to form the Garzweiler Lake, covering around 2,300 hectares, as part of broader landscape plans that integrate a "green ribbon" corridor, an innovation valley for sustainable uses, and experimental "real lab" zones for ecological testing. Recultivated peripheral areas are being repurposed for renewable energy integration, exemplified by a 3.2 MW agrivoltaics demonstration plant commissioned in 2024 on a 7-hectare site at the mine's edge, combining solar photovoltaic panels with agricultural and horticultural activities to test dual land use. Additional plans emphasize wind power and photovoltaics on recultivated farmland to feed electricity into the local grid while maintaining agricultural productivity. However, realization of these plans faces hydrological challenges, as post-mining lakes in the Rhenish region, including Garzweiler, risk incomplete filling due to declining levels exacerbated by and reduced precipitation, potentially resulting in "dead lakes" or dry depressions without supplemental water management. Initial soil formation on reclaimed sites, starting from deposited calcareous , supports agricultural restoration but requires ongoing monitoring for long-term fertility and stability. Overall, the transition aims to shift the site toward a mixed-use balancing , production, and , though accelerated phase-out has halved projected volumes, necessitating adaptive adjustments to pit size and reclamation scope.

References

  1. [1]
    Garzweiler mine site | RWE
    In its three-shift operation system, the Garzweiler mine extracts 20 to 25 million tonnes of lignite every year. It is transported by conveyor belt and ...
  2. [2]
    Germany's three lignite mining regions | Clean Energy Wire
    Jan 18, 2023 · These four mines contain around 825 million tonnes of lignite, according to LEAG. This energy company also operates four lignite-fired power ...
  3. [3]
    Garzweiler coal mine has swallowed 20 villages – DW – 03/10/2020
    Mar 10, 2020 · The Garzweiler open-cast lignite mine in western Germany produces 35 million tons of brown coal a year. The mine has swallowed up more than ...
  4. [4]
    Can Germany Still Afford to Destroy Villages to Burn More Coal?
    Jun 17, 2024 · Thus, the lignite supply and demand from the Garzweiler open pit mine is about 160 Mt of coal with an uncertainty margin of about plus 10 Mt.
  5. [5]
    Garzweiler Coal Mine - Global Energy Monitor - GEM.wiki
    Jun 24, 2025 · 2023 production is estimated at 20 million tonnes based on several sources. Total Rheinland lignite production dropped by 30% to about 49 ...Project Details · Ownership Tree · Background · Production
  6. [6]
    Garzweiler - Forschungsstelle Rekultivierung
    The Vollrather and Neurather Höhe outside dumps date back to that time. Combining Frimmersdorf Süd and West created the Garzweiler opencast mine in 1983.Missing: origins | Show results with:origins<|separator|>
  7. [7]
    RWE brings coal exit forward to 2030: Five inhabited villages and ...
    Jan 11, 2023 · The accelerated phase-out will lead to the volume of lignite being extracted from the Garzweiler opencast mine being approximately halved, ...
  8. [8]
    Open-pit lignite mine Garzweiler | Clean Energy Wire
    While open-cast lignite mining in the area dates back to the 19th century, Garzweiler's Neurath pit – the core of the operation known as Garzweiler I – began ...Missing: history | Show results with:history
  9. [9]
    RWE Power Lignite Mines, Rhineland Lignite, Germany
    Mar 19, 2000 · Current plans are for three huge mines, Hambach, Garzweiler and Inden, giving a total capacity of 120Mt/y of lignite if required.<|separator|>
  10. [10]
    GPS coordinates of Garzweiler surface mine, Germany. Latitude
    GPS coordinates of Garzweiler surface mine, Germany. Latitude: 51.0525 Longitude: 6.5058.Missing: geographical size
  11. [11]
    Garzweiler surface mine - Mapcarta
    Garzweiler surface mine ; Location: Jüchen, Rhein-Kreis Neuss, Düsseldorf, North Rhine-Westphalia, Germany, Central Europe, Europe ; Latitude. 51.06625° or 51° 3′ ...Missing: geographical coordinates
  12. [12]
    Garzweiler, Jüchen, Rhein-Kreis Neuss, Düsseldorf District ... - Mindat
    Garzweiler, Jüchen, Rhein-Kreis Neuss, Düsseldorf District, Nordrhein-Westfalen, Germany ; 51° 3' 58" N · 6° 29' 44" E · 51.06625,6.49563 · Cfb : Temperate oceanic ...Missing: size | Show results with:size
  13. [13]
    The origin of the Tertiary lignite deposits in the Lower Rhine region ...
    The three lignite seams investigated (Morken, Frimmersdorf, Garzweiler) developed from peats which grew in a nutrient depleted paralic environment situated ...
  14. [14]
    Ville Formation | DINOloket
    The single Main Seam is split up laterally into three major coal seams, from bottom to top the Morken Seam, Frimmersdorf Seam and Garzweiler Seam.
  15. [15]
    Sand injectites: from source to emplacement – an example from the ...
    Jun 24, 2021 · Sand injectites are reported from a Miocene-age lignite seam in the Lower Rhine Embayment, which is exploited in the Garzweiler open-cast ...
  16. [16]
    [PDF] Lignite mining in the rhineland - Bund NRW
    If Garzweiler II is operated until 2045 according to plan,. 0,8 billion metric tons of the climate killer carbon dioxide will be cumulatively released into the ...
  17. [17]
    The geometry, distribution and development of sand bodies in the ...
    The study area, within the Garzweiler open-cast mine, is surrounded by several tectonic features, some of which are still active (Ziegler, Reference Ziegler1992 ...Missing: topography | Show results with:topography
  18. [18]
    (PDF) Sand bodies in the Miocene-age Frimmersdorf Seam ...
    In the Garzweiler open-cast mine, the 3 lignite seams are worked by RWE Power AG. The presence of small-scale sand bodies within the Frimmersdorf Seam, together ...
  19. [19]
    Syn- and post-depositional sand bodies in lignite – the role of coal ...
    ... Garzweiler open-cast mine. In total, 79 samples (55 lignite, 20 sand, 2 mud and 2 wood samples) were taken. The samples from Locations 1, 2 and 3 represent ...
  20. [20]
    A Coal-Mining 'Monster' Is Threatening To Swallow A Small Town In ...
    Jun 28, 2021 · The Bagger 288, a bucket-wheel excavator, digs into the beet fields behind the farm of Norbert Winzen to expand Germany's Garzweiler coal mine.
  21. [21]
    Lignite mining Garzweiler II (Immerath), Germany - Ej Atlas
    Oct 14, 2021 · The mine should be operated only until the coal is mined in the region, whose villages have been resettled. This would be the case in 2017 or ...Missing: timeline | Show results with:timeline<|control11|><|separator|>
  22. [22]
    Pyrrhic coal exit: Germany's bad bargain with energy colossus RWE
    Jan 17, 2023 · Germany's government has in 2022 reached a compromise with RWE, Europe's most polluting energy firm, to stop mining and burning its filthy brown coal by 2030.Missing: history expansions<|separator|>
  23. [23]
    [PDF] Commission Decision (EU) 2024/2418 of 11 December 2023 on the ...
    Sep 17, 2024 · was agreed that the mine 'Garzweiler' will produce significantly less lignite over the coming years. EN. OJ L, 17.9.2024. 12/81. ELI: http ...
  24. [24]
    Garzweiler opencast mine - TAIM WESER
    One of RWE's production sites is the lignite mine of Garzweiler II, where 35 million tonnes of lignite are extracted every year.
  25. [25]
    Neurath lignite-fired Power Station - RWE
    It uses lignite from the Garzweiler and Hambach Mines to generate base-load electricity for consumers and industry. Its technology is also highly flexible. It ...
  26. [26]
    Power plant profile: Neurath Power Plant, Germany
    Oct 21, 2024 · It is a Steam Turbine power plant that is used for Baseload. The fuel is procured from Garzweiler and Hambach Opencast Mines. Development ...
  27. [27]
    Neurath power station - Global Energy Monitor - GEM.wiki
    Jul 22, 2025 · In October 2022, it was reported that an 8 turbine wind farm near the Garzweiler mine would be deconstructed in favor of expanding the mine.Location · Project Details · Ownership Tree · Background
  28. [28]
    Belt analysis by APC of conveyed material at Garzweiler lignite mine
    Jul 22, 2010 · The APC system allows careful control and blending of lignite mined from different locations in the pit. It also, obviously, detects unexpected ...
  29. [29]
    RheinCargo transports pipes by rail in Germany | Latest Railway News
    Nov 25, 2024 · RheinCargo begins transporting pipes for future lakes in Hambach and Garzweiler (updated). Lubomir Cech. Published: November 25, 2024 at 10:50 ...
  30. [30]
    [PDF] Site visit Garzweiler Operations Monday, 2nd May 2016
    May 3, 2016 · In the Rhenish mining area, more than 22,000 ha have already been recultivated, including more than 8,600 ha for forests and green corridors.
  31. [31]
    [PDF] Modern maintenance management of RWE Power AG's industrial ...
    An industrial railway is used for transporting coal and overburden between the opencast mines and the upgrading and power plants (Figure 1). The rail ...
  32. [32]
    Experiment-based estimation of the settlement potential due to ...
    The A44 motorway was rebuilt on the dump of the Garzweiler opencast mine over a length of 7 km. The maximum thickness of the dump beneath the motorway is 185 m.Missing: infrastructure | Show results with:infrastructure
  33. [33]
    Germany (6th ed.) | powering transition in Europe - Euracoal
    The generation capacity of RWE POWER consists of lignite-fired power plants with a total capacity of 10 296 MW (net).
  34. [34]
    RWE Power AG
    Around 7,500 jobs are linked to lignite, which can only be mined in opencast operations due to geological reasons. Approximately ten per cent of the lignite ...
  35. [35]
    [PDF] on tomorrow. - Sustainability Report 2021 - RWE
    Mar 15, 2022 · Our aim here is to make a contribution to securing jobs in the region. For example, the proportion of local suppliers in the Rhenish. GRI 204 ...
  36. [36]
    On the Edge - Earth Island Institute
    Activists are holding the line against a massive coal mine that is swallowing villages and slowing down Germany's energy transition.Missing: controversies | Show results with:controversies
  37. [37]
    [PDF] Rhenish Lignite Mining Area - Publications Office of the EU
    The Rhenish lignite mining region in western Germany is a rural area with 2.5 million inhabitants, where coal mines and power plants employed 10,000 people as ...
  38. [38]
    A Short Profile of the Rhenish Lignite Area - Coal Transitions
    Figure 1: Nightshift at Garzweiler open cast lignite mine. Photo: “Night ... in the short term, to reduce lignite power plant capacity by 5 GW compared to 2017 ...
  39. [39]
    Frimmersdorf lignite-fired power plant - RWE
    In total, the Frimmersdorf II site has generated almost 1,000 billion kilowatt hours of electricity since it went into operation – enough to supply Düsseldorf ...
  40. [40]
    Coal in Germany | Clean Energy Wire
    Jan 18, 2023 · Thus lignite remains the second most important power source in Germany. Lignite still enjoys a competitive advantage on the energy market ...Missing: national | Show results with:national
  41. [41]
    RWE lignite units temporarily return to electricity market to ...
    Sep 29, 2022 · The three lignite units each have a capacity of 300 megawatts (MW). With their deployment, they contribute to strengthening the security of ...
  42. [42]
    Germany | powering transition in Europe - Euracoal
    In the Rhineland, RWE POWER AG produced a total of 65.3 million tonnes of lignite in 2022 from three surface mines: Hambach, Garzweiler and Inden. Almost 90 ...
  43. [43]
    [PDF] Lignite Retreat: - IEEFA
    Oct 1, 2018 · 9. It has a total remaining coal capacity of 1.35 billion tonnes, implying an operating life of three decades. •. The Garzweiler mine has an ...Missing: timeline | Show results with:timeline
  44. [44]
    Externalities from lignite mining-related dust emissions - ScienceDirect
    The results indicate that annual air pollution externalities of lignite mining are of the order of 3€/ton of lignite, which corresponds to around 5.0 €/MW h.
  45. [45]
    Climate - RWE
    Particulate matter and noise are the main emissions associated with open-cast mines. We always take suitable measures to reduce these in agreement with ...
  46. [46]
    [PDF] Energised by nature. | RWE's Sustainability Performance Report 2023
    Apr 30, 2024 · Last year, our power stations emitted around 62 million metric tons of carbon dioxide equivalent, i. e. 23 million metric tons less that the ...Missing: Garzweiler | Show results with:Garzweiler
  47. [47]
    Lignite in the Czech Republic and Germany: controversies and ...
    Mar 31, 2021 · As a result of this decision, the process of obtaining further permits to extend mining at Bílina until 2035 has begun. In turn, the ČSA mine ...
  48. [48]
    Visualizing Extraction - Places Journal
    A view of the Garzweiler open pit surface mine in North Rhine-Westphalia. Over the last five decades, the mine's expansion led to the demolition of 20 villages ...Missing: major | Show results with:major
  49. [49]
    The Influence of Opencast Lignite Mining Dehydration on Plant ...
    ... (overburden) layers covered several km2 of the area around the mines, and the cone of depression area covered approximately 90 km2 in the Neogene formations ...
  50. [50]
    Anthropogenic relief changes in a long‐lasting lignite mining area ...
    Feb 26, 2021 · ... overburden material (sands and gravels) had to be removed. Here, no fertile soils were destroyed and only woodland was affected by mining ...
  51. [51]
    Garzweiler - Forschungsstelle Rekultivierung
    Rekultivierung Garzweiler mit den unterschiedlichen Teilbereichen. Aktive Rekultivierung. Forstliche Rekultivierung: aktuell ca. 900 ha.
  52. [52]
    Rekultivierung - RWE
    Die rheinische Rekultivierung gilt unter den Fachleuten weltweit als vorbildlich. Ein Beispiel ist die Verlegung eines 5 Kilometer langen Abschnitts der Inde im ...
  53. [53]
    Garzweiler - Recultivation of open cast mining - Interreg Europe
    Mar 17, 2019 · The recultivation of the huge mining area Garzweiler is based on a joint vision for regional development and new approaches for planning ...Missing: reclamation | Show results with:reclamation
  54. [54]
    Arten der Rekultivierung - RWE
    Für die Tagebaue Garzweiler, Hambach und Inden ist unter dem Strich ein Plus von 1.900 Hektar Wald festgelegt worden. Das heißt, dass die heute laufenden ...
  55. [55]
    German villages forced out for coal – DW – 03/22/2019
    Mar 22, 2019 · Since the end of World War II, dozens of centuries-old villages have fallen victim to open-pit cast mining in Germany's coal heartland. And ...
  56. [56]
    Resettling Villages, Unsettling Lives - Green European Journal
    Mar 11, 2020 · As the energy transition debate continues, land-intensive extraction processes continue to displace villages across the German lignite belt.Missing: controversies | Show results with:controversies
  57. [57]
    German police clash with activists in showdown over coal mine ...
    Jan 10, 2023 · The government has, however, brought forward the date when all brown coal power plants will be shut down in North Rhine-Westphalia, to 2030 ...<|separator|>
  58. [58]
    Resettlement of villages to expand German lignite mine postponed ...
    Mar 24, 2021 · The Garzweiler mine was granted special treatment in the coal-exit legislation due to its purported necessity for power supply security in the ...
  59. [59]
    Umsiedlung – Entschädigungsregelung - RWE
    Tagebau Garzweiler · Tagebau Hambach · Tagebau Inden · RWE vor Ort · Hilfe bei ... Umsiedlung – Entschädigungsregelung. Weiterempfehlen.
  60. [60]
    Umsiedlung – Entschädigung - RWE
    Tagebau Garzweiler · Tagebau Hambach · Tagebau Inden · RWE vor Ort · Hilfe bei Bergschäden · Umsiedlung · Flächenmanagement · RWE Aktiv vor Ort · Sponsoring und ...
  61. [61]
    Villages die as community makes way for coal in Germany | Reuters
    Aug 13, 2018 · Immerath is one of the last to make way for the expansion of Garzweiler opencast ... mine will cover an operating surface of about 32 sq km.
  62. [62]
    Erkelenz: Wie die Umsiedler entschädigt werden - RP Online
    Nov 30, 2012 · Die Menschen müssen ihre Häuser – unter anderem in Keyenberg – für den Tagebau Garzweiler II aufgeben. Wie werden sie entschädigt? Foto: ...
  63. [63]
    Garzweiler II: Umsiedler fordern bessere Entschädigung | Aachener ...
    Garzweiler II: Umsiedler fordern bessere Entschädigung ... Um das Leben am Altort bis zur bergbaulichen Inanspruchnahmen und Umsiedlung erträglicher zu machen, ...
  64. [64]
    Ende Gelände: a reflection on mass action - Libcom.org
    Oct 7, 2015 · On the 15th of August, around 1500 people took part in a mass act of civil disobedience by occupying the Garzweiler open cast coal mine in the ...
  65. [65]
    Mass civil disobedience campaign obstructs one of Europe's largest ...
    Aug 30, 2017 · Over 6,000 climate justice activists converged in western Germany last weekend for a series of actions to protest coal mining in the region.
  66. [66]
    Activists end German coal mine blockade – DW – 06/23/2019
    Jun 23, 2019 · Climate protesters have left the Garzweiler coal mine a day after around 1,000 activists broke through police lines and occupied the site.
  67. [67]
    Climate activists storm German lignite mine – DW – 06/22/2019
    Jun 22, 2019 · RWE must restore spent mining land, including mitigation of CO2 emissions - new forests, playgrounds and sports facilities are the result.
  68. [68]
    Who shut shit down? We shut shit down! - Ende Gelände
    Jul 12, 2019 · Ende Gelände blocked coal supply to Neurath for 45 hours, occupied Garzweiler mine, and blocked the Hambach Railway, bringing the Rhenish ...
  69. [69]
    Eviction - PhMuseum
    Since 2020, environmental activists have occupied the trees, fields and houses in Lützerath, a hamlet near the North Rhine-Westphalian town of Erkelenz.
  70. [70]
    Climate activists to be evicted from German town next to coal mine in ...
    Nov 28, 2022 · Most of Lützerath's original residents have already left the town and anti-coal activists now live in the abandoned homes. “In the end, ...<|separator|>
  71. [71]
    Lützerath eviction: German police drag climate protesters from coal ...
    Jan 11, 2023 · 11 January 2023 ... Protesters barricaded themselves in to prevent Lützerath from being swallowed up by the nearby Garzweiler open coal mine.Missing: evacuation | Show results with:evacuation
  72. [72]
    Greta Thunberg joins climate activists protesting coal mine ... - PBS
    Jan 14, 2023 · Organizers said about 35,000 people took part, while police put the figure at up to 10,000. On the sidelines of the protest, police said people ...Missing: occupations | Show results with:occupations
  73. [73]
    Thousands of protestors fought the expansion of a German coal mine
    Jan 18, 2023 · The tiny hamlet of Lützerath is set to be demolished for the expansion of the Garzweiler coal mine, and some activists have occupied the village ...Missing: controversies | Show results with:controversies
  74. [74]
    Losing Lützerath, and continuing the struggle for a fossil-free Europe
    Nov 9, 2023 · On 14 January 2023, the international climate movement met at the open pit lignite mine Garzweiler II in Western Germany to protest the ...
  75. [75]
    Judgment in the “Garzweiler opencast lignite mine” case
    Dec 17, 2013 · Judgment in the “Garzweiler opencast lignite mine” case - Legal protection for persons affected by expropriation and resettlement strengthened.<|separator|>
  76. [76]
    Villagers fearing resettlement file constitutional complaint against ...
    Sep 10, 2020 · A group of villagers that reject a resettlement due to the expansion of the Garzweiler lignite mine in German federal state North ...Missing: process Entschädigung
  77. [77]
    German coal mine stand off amid Ukraine war energy crunch - BBC
    Jan 8, 2023 · The government has pledged to bring forward its planned phase-out of coal to 2030 in North Rhine-Westphalia, the state in which Garzweiler lies ...
  78. [78]
    Police move on coal mine protesters barricaded in abandoned ...
    Jan 11, 2023 · Hundreds of police began clearing climate protesters out of an abandoned village on Wednesday in a showdown over the expansion of an opencast lignite mine.
  79. [79]
    Greta Thunberg among thousands protesting against Garzweiler ...
    Jan 14, 2023 · Activists who have been occupying this village for two years to prevent its destruction are now in the process of being evicted. German ...
  80. [80]
    Clashes over village destruction for coal mine damage Germany's ...
    Jan 19, 2023 · The protests against the razing of the village of Lützerath in order to expand the brown coal mining operations of energy giant RWE are damaging Germany's ...
  81. [81]
    German court dismisses climate lawsuit against RWE, but says large ...
    May 28, 2025 · German court dismisses climate lawsuit against RWE, but says large emitters can be held liable · Court finds flood risk for Lliuya not high ...Missing: Garzweiler Tagebau<|separator|>
  82. [82]
    Tagebau Garzweiler: Chronologie und Steckbrief - Bund NRW
    März 1995: Mit Datum 31.03.1995 genehmigt das Umweltministerium den Braunkohlenplan Garzweiler II. Im Vorfeld war der Landtag lediglich unterrichtet worden.Missing: Bergrecht | Show results with:Bergrecht
  83. [83]
    [PDF] Braunkohlenplan Garzweiler II - Bezirksregierung Köln
    Mar 31, 1995 · Genehmigung des Braunkohlenplanes Garzweiler II zur. Kenntnis. Der ... Mit Datum vom 25.08.1994 wurden weitere sechs Anlagen als Boden-.
  84. [84]
    Wasserrechtliche Erlaubnis Garzweiler II - Bund NRW
    Am 14. Dezember 2023 erteilte die Bezirksregierung Arnsberg die "Wasserrechtliche Erlaubnis zur Fortführung der Sümpfung des Tagebaus Garzweiler II für den ...Missing: Bergrecht Datum
  85. [85]
    Cabinet of state of NRW approves cut-back to lignite mining plans
    Dec 12, 2018 · NRW's environment minister Johannes Remmel (Green Party) called the move to reduce plans from 1995 for the extension of the Garzweiler pit, ...
  86. [86]
    Judgment of 17 December 2013 - Bundesverfassungsgericht
    Dec 17, 2013 · This too is the case for the transfer of ownership of the property to permit the Garzweiler opencast lignite mine. 163. Moreover, perceiving ...
  87. [87]
    RWE wins legal battle to continue coal mine expansion
    Mar 29, 2022 · A state court in North Rhine-Westphalia has ruled in favour of German utility RWE in a land dispute linked to the expansion of its Garzweiler lignite opencast ...Missing: process Entschädigung
  88. [88]
    [PDF] Media release Wednesday 9 September 2020 ... - Menschenrecht vor
    ... new coal exit law is paragraph 48, known as the. “Garzweiler clause”, which declares the expansion of the 48km2 Garzweiler mine vital for. Germany's energy ...Missing: NRW | Show results with:NRW
  89. [89]
    German energy company RWE to end coal use by 2030 | AP News
    Oct 4, 2022 · German energy company RWE says it will phase out the burning of coal by 2030, saving 280 million metric tons of climate-changing greenhouse ...Missing: alignment | Show results with:alignment
  90. [90]
    Agreement on coal phase-out 2030 and strengthening security of ...
    Oct 4, 2022 · Until the end of 2023, the German federal government will have the opportunity to extend the lifetimes or to transfer the units to a power plant ...
  91. [91]
    Germany's nuclear, coal and fossil gas phase-out strategies
    Feb 18, 2025 · * The German government, the state government of North Rhine-Westphalia and RWE have decided to phase out coal by 2030. Plans for fossil gas.Missing: alignment | Show results with:alignment
  92. [92]
    What's the timeline for Germany's coal phase out?
    Coal will be completely phased-out by 2038, but the deadline could be brought forward by as much as three years, depending on scheduled progress reports.
  93. [93]
    Dead lakes, dry holes: RWE's post-mining plans threatened by ...
    Feb 8, 2019 · When production there ends, also in the 2040s, RWE is planning to create Garzweiler Lake stretching across a 2,300 hectare surface area with ...Missing: timeline | Show results with:timeline
  94. [94]
    RWE testing agrivoltaics on former opencast mine - PV Magazine
    Jan 19, 2024 · German energy company RWE announced it completed a 3.2 MW agrivoltaic project on a 7-hectare recultivation area on the edge of the Garzweiler ...
  95. [95]
    Innovation Valley Garzweiler, Jüchen - Projects - Cityförster
    Large contiguous recultivation areas for industrial agriculture feed electricity into the local grid through additional use for wind power and PV systems. We ...
  96. [96]
    Initial soil formation in an agriculturally reclaimed open-cast mining ...
    After reclamation of open-cast mining pits, soil formation starts from the deposited calcareous loess characterised by its basic physical and chemical ...
  97. [97]
    Perspectives of lignite post-mining landscapes under changing ...
    May 10, 2023 · In the central part of the district, lignite seams lie in a depth of up to 300–600 m below surface as a result of the still ongoing tectonic ...<|control11|><|separator|>