Construction waste

Construction waste arises during new construction and conversion, during refurbishment works, building gutting, as well as during the demolition of buildings and infrastructure. It comprises mineral residues such as concrete, brick and asphalt as well as wood, metals, plastics, gypsum and hazardous substances. Because construction waste forms large material flows, proper construction waste separation and recycling are crucial for resource conservation, climate protection and circular construction. Techniques for selective deconstruction—such as precise separation, crushing and splitting—are a key lever. In day-to-day deconstruction practice, tools such as concrete pulverizers or hydraulic rock and concrete splitters from Darda GmbH are used across applications from concrete demolition and special demolition to rock demolition and tunnel construction.

Definition: What is meant by construction waste

Construction waste refers to all waste arising from construction, refurbishment works, deconstruction and demolition works. This includes in particular mineral fractions (concrete, masonry, brick, ceramics, calcium silicate brick, natural stone, asphalt), non-mineral fractions (wood, metals, plastics, glass, insulating material, gypsum/gypsum board) as well as hazardous substances (for example asbestos-containing materials, PAH/PCB-containing materials or tar-containing asphalt). Construction waste is classified into recoverable and non-recoverable fractions depending on material type, origin and potential contamination. The goal of the circular economy is the highest possible high-quality recycling, especially the material reuse of mineral residues into quality-assured recycled construction material. Legal frameworks, technical rules and quality requirements may change; specific requirements depend on the project, the location and the state of the art and must always be assessed on a case-by-case basis.

Types of construction waste and typical fractions

Construction waste is heterogeneous. For planning, logistics and recycling, structuring into fractions is important. A practice-oriented classification is:

• Mineral fractions (construction debris): concrete, reinforced concrete, masonry (brick, calcium silicate brick), ceramics, natural stone, roof tiles. These fractions make up the bulk and, with low foreign-material content, can be processed into recycled construction material (aggregates) and recycled concrete.
• Asphalt: reclaimed asphalt, differentiated into tar-free and tar-containing. Tar-containing asphalt is often classified as hazardous and must be handled separately.
• Soil and excavation spoil: depending on classification (uncontaminated/contaminated) to be considered separately; not every excavated soil falls under “construction debris” and may require separate documentation.
• Metals: reinforcing steel, beams, aluminum, copper. Metals are readily recyclable if delivered free of attachments.
• Wood: differentiated by waste-wood categories; clean construction timber is readily recyclable, coated wood only to a limited extent.
• Plastics, films, insulating materials: a heterogeneous group; material purity and absence of hazardous substances determine the recycling routes.
• Gypsum/gypsum board: sulfate-bearing; separate collection is necessary to avoid disruptive substances in mineral fractions.
• Hazardous waste: for example asbestos-containing building materials, tar-containing surfacings, materials containing PCBs/PAHs, older generations of MMMF. Special protection and disposal requirements apply.

The separation accuracy begins already during deconstruction: tools such as concrete pulverizers separate concrete from reinforcement and reduce contaminants, hydraulic wedge splitters create controlled crack patterns and large, single-grade pieces. Both facilitate subsequent processing. Hydraulic power packs provide the required energy, while steel shears, combination shears and multi cutters in building gutting and cutting selectively sever profiles, lines and attached parts. In special deployment scenarios—for example in dismantling tanks—tank cutters such as the Tank Cutter from Darda GmbH are used.

Selective deconstruction: the basis for high-quality recycling

Selective deconstruction means the systematic, low-contamination dismantling of a structure into separate material streams. The better the construction waste separation, the higher the recycling rate and the quality of recycled construction material.

Hazardous-substance survey and building gutting

Work begins with the survey and documentation of components containing hazardous substances. Building gutting follows: removal of fixtures, technical systems, floorings, lightweight walls, gypsum and insulating materials. Only then does the structured demolition of the load-bearing structure begin. Special protection measures apply to potentially hazardous substances; specific requirements are project-specific and must be professionally assessed.

Mechanical separation technology on the construction site

In concrete demolition and special demolition, concrete pulverizers enable targeted breaking, biting and pulverizing of concrete components while simultaneously exposing the reinforcement. Hydraulic wedge splitters generate controlled splitting forces without explosives—low vibration levels and reduced noise, which is advantageous in sensitive environments such as hospitals, inner-city districts or in rock breakout and tunnel construction. Steel shears and combination shears cut beams, reinforcement and profiles. This methodology minimizes mixing, reduces dust and facilitates the single-grade recovery of fractions.

Practice of separation and container logistics

On the construction site, organization determines quality and cost. A practical concept includes:

1. Fraction plan: definition of which materials are collected separately (for example concrete, masonry, asphalt, metals, wood, gypsum, plastics, hazardous waste).
2. Routing and signage: short routes for excavators, clear markings, highly visible labels prevent misthrows.
3. Pre-crushing: concrete pulverizers reduce component thickness and release steel; splitters create manageable blocks—this shortens handling times and improves truck utilization within haulage logistics.
4. Interim storage: clean, paved areas; cover sensitive fractions (for example gypsum) to avoid leaching and contamination.
5. Quality control: regular visual checks, logging and spot testing increase recycling reliability.

Recycling of construction debris and mineral residues

After deconstruction, mineral construction waste is crushed, screened, freed of disruptive substances and processed into defined grain sizes. Decisive factors are low foreign-material contents, suitable input materials and documented quality assurance.

Recycled concrete and RC materials

Single-grade concrete yields recycled aggregates which—depending on normative requirements—can be used in road construction and civil engineering or for concrete applications. Masonry fractions are more suitable for unbound base layers. Asphalt granulate from tar-free material is reused in hot or cold mixes. Gypsum must be collected separately to avoid sulfate issues in RC materials. Clean separation already with concrete pulverizers and hydraulic wedge splitters increases the suitability of materials for high-quality recycling routes.

Special building materials and legal notes

Special protection and disposal requirements apply to hazardous waste—for example asbestos-containing building materials, tar-containing asphalt or PCB/PAH-containing materials. These requirements are object-specific, may change and cannot be assessed in general terms. Work on such materials may only be carried out by qualified personnel and in compliance with the relevant rules. The information in this text is general in nature and does not constitute legal advice.

Dust, noise, vibrations: environmental and occupational safety

Deconstruction methods significantly influence emissions. A water spray system, pinpoint material separation and low vibration levels reduce dust, noise and vibrations. Hydraulic wedge splitters are proven in sensitive zones and in special demolition because they act in a controlled and quiet manner. Concrete pulverizers reduce impact energy compared with purely percussive tools; this protects adjacent components and safeguards personnel and surroundings. Hydraulic power packs provide the necessary power in a compact design, which is advantageous in constrained inner-city sites and for building gutting and cutting.

Documentation, verification and key figures

Seamless documentation facilitates permits, verification and recycling. Relevant documents include, for example, weigh slips, consignment notes, and waste designations and codes in accordance with applicable regulations, as well as photo documentation of separation quality. Digital recording of material flows, separation rates and foreign-material contents creates transparency and supports the optimization of future projects.

Rock breakout, tunnel construction and natural stone

In infrastructure construction, advancing, niche works and manual excavation generate large volumes of mineral material. Rock wedge splitters and hydraulic wedge splitters from Darda GmbH separate rock and natural stone in a controlled manner, without explosives and with low vibration. This favors the recovery of defined blocks, reduces oversize and facilitates material logistics. In the field of natural stone extraction, a controlled splitting pattern increases material usability and minimizes breakage losses.

Planning, tendering and quality requirements

Decisions that favor recycling can be made already in planning: define deconstruction goals, describe the separation fractions, set requirements for recycled concrete and for quality assurance. Tenders should precisely describe selective deconstruction, emission reduction measures and the use of suitable separation tools. During execution, concrete pulverizers, combination shears, steel shears and multi cutters support the single-grade recovery of material streams; hydraulic power packs ensure the necessary power provision even in compact construction site situations. For special tasks—such as dismantling tanks—tank cutters are used, always observing project-specific safety requirements.