Construction Waste
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Construction Waste
Polyurethane insulator material marked for removal of the construction site (of a residential building).

Construction waste or debris is any kind of debris from the construction process. Different government agencies have clear definitions. For example, the United States Environmental Protection Agency EPA defines construction and demolition materials as "debris generated during the construction, renovation and demolition of buildings, roads, and bridges."

Construction and demolition materials are created during the process of creating a new building or structure or when renovating or demolishing an existing structure. These materials are usually heavy materials used in large volumes in modern construction, such as concrete, steel, wood, asphalt and gypsum. Of total waste in the United States, 90% comes from the demolition of structures, while waste generated during construction accounts for less than 10%.[1] Construction waste frequently includes small amount of hazardous materials that require they be disposed of differently than most construction waste, such as fluorescent lights, batteries, and other electrical equipment.[2]

When these waste products are created, they are dealt with by exporting to a landfill, recycling materials for new use, waste incineration, or direct reuse on site, through integration into construction or as fill dirt. In dealing with construction and demolition waste products, it is often hard to recycling and repurposing because of cost of processing. Businesses recycling materials must compete with often the low cost of landfills and new construction commodities.[3] In a report including data from 24 participating states in the United States, the percentage of total solid waste in the US that was caused by construction and demolition (C&D) waste materials was 23%.[4] This is almost a quarter of the total solid waste produced by the United States, and it does not include the water polluted during construction and during the time a lot of this waste spends in a landfill leaching toxic chemicals into the surrounding environment.

Types of waste

Much building waste is made up of materials such as bricks, concrete and wood damaged or unused during construction. Observational research has shown that this can be as high as 10 to 15% of the materials that go into a building, a much higher percentage than the 2.5-5% usually assumed by quantity surveyors and the construction industry. Since considerable variability exists between construction sites, there is much opportunity for reducing this waste.[5]

There has been a massive increase in construction and demolition waste created over the last 30 years in the United States. In 1990, 135 million tons of construction and demolition debris by weight were created and had risen to 600 million tons by the year 2018. This is a 300% increase, but it is important to note that since 2015 the EPA has kept records of how the waste is disposed of. In 2018, 600 million tons of waste was created due to construction and demolition, and 143 million tons of it resides in landfills.[1] This means that about 76% of waste is now retained and repurposed in the industry, but there is still more waste being exported to landfills than the entire amount of waste created in 1990.

This unsustainable consumption of raw materials creates increasing business risks. This includes higher material costs or disruptions in the supply chains.[6] In 2010, the EPA created the Sustainable Materials Management (SMM) Program Strategic Plan which marked a strategic shift by the EPA to move emphasis from broad resource recovery initiative to sustainable materials management. Since material management regulations largely exist at a state and local level, this is no real standard practice across the nation for responsible waste mitigation strategies for construction materials. The EPA aims to increase access to collection, processing, and recycling infrastructure in order to meet this issue head on.

Main causes of waste

Steel reinforcement

Steel is used as reinforcement and structural integrity in the vast majority of construction projects. The main reasons steel is wasted on a site is due to irresponsible beam cutting and fabrication issues. The worst sites usually end up being the ones that do not have adequate design details and standards, which can result in waste due to short ends of bars being discarded due to improper planning of cuts.[7] Many companies now choose to purchase preassembled steel reinforcement pieces. This reduces waste by outsourcing the bar cutting to companies that prioritize responsible material use.

Concrete Mixer

Premixed concrete

Premixed concrete has one of the lowest waste indices when compared to other building materials. Many site managers site the difficulties controlling concrete delivery amounts as a major issue in accurately quantifying concrete needed for a site. The deviations from actually constructed concrete slabs and beams and the design amounts necessary were found to be 5.4% and 2.7% larger than expected, respectively, when comparing the data from 30 Brazilian sites. Many of these issues were attributed to inadequate form layout or lack of precision in excavation for foundation piles. Additionally, site managers know that additional concrete may be needed, and they will often order excess material to not interrupt the concrete pouring.[7]

Pipes and wires

It is often difficult to plan and keep track of all the pipes and wires on a site as they are used in so many different areas of a project, especially when electrical and plumbing services are routinely subcontracted. Many issues of waste arise in this area of the construction process because of poorly designed details and irresponsible cutting of pipes and wires leaving short, wasted pipes and wires.[7]

Recycling, disposal and environmental impact

Recycling and reuse of material

Recycling Trucks

Most guidelines on C&D waste management follows the waste managing hierarchy framework. This framework involves a set of alternatives for dealing with waste arranged in descending order of preference. The waste hierarchy is a nationally and internationally accepted concept used to priorities and guide efforts to manage waste.[8] The alternatives include prevention, reduction, reusing, recycling, energy recovery, (treatment) and disposal

It is possible to recycle many elements of construction waste. Often roll-off containers are used to transport the waste. Rubble can be crushed and reused in construction projects. Waste wood can also be recovered and recycled.

Landfilling

Some certain components of construction waste such as plasterboard are hazardous once landfilled. Plasterboard is broken down in landfill conditions releasing hydrogen sulfide, a toxic gas. The traditional disposal way for construction waste is to send it to landfill sites. Sending the waste directly to a landfill causes many problems:

Landfill

Incineration and health risks

Where recycling is not an option, the disposal of construction waste and hazardous materials must be carried out according to legislation of relevant councils and regulatory bodies. The penalties for improper disposal of construction waste and hazardous waste, including asbestos, can reach into the tens of thousands of dollars for businesses and individuals.

Waste Incinerator

Waste-to-energy facilities burn more than 13% of solid municipal waste. The toxic fumes emitted by WTE plants can contain harmful chemicals such as mercury and other heavy metals, carbon monoxide, sulfur dioxide, and dioxins.

Dioxin was used as a waste oil in Times Beach, Missouri. Days after the chemicals were introduced to the community animals began dying. By the time the EPA deemed dioxins to be highly toxic in the 1980s, the CDC recommended the town be abandoned entirely due to contaminated waste products in the area. By 1985, the entire population of Times Beach had been relocated, prompting Missouri to build a new incinerator on the contaminated land. They continued to burn 265,000 tons of dioxin-contaminated waste until 1997.

Dioxins are a family of chemicals produced as a byproduct during the manufacturing of many pesticides and construction materials like carpeting and PVC. These chemicals exist in the environment attached to soil or dust particles that are invisible to the naked eye.

Dioxins break down slowly. It still threatens public health at low levels. Since industry has mostly stopped producing dioxins, one of the largest contributors releasing harmful dioxins left in the United States is waste incineration. Dioxins have been proven to cause cancer, reproductive and developmental issues, and immune system damage. Rates of cancer such as non-Hodgkin's lymphoma and soft tissue sarcoma rise significantly the closer one lives to the pollutants' source.

Management strategies

Waste management fees

Waste management fees, under the 'polluter pays principle', can help mitigate levels of construction waste.[12] There is very little information on determining a waste management fee for construction waste created. Many models for this have been created in the past, but they are subjective and flawed. In 2019, a study method was proposed to optimize the construction waste management fee. The new model expands on previous ones by considering life-cycle costs of construction waste and weighs it against the willingness to improve construction waste management. The study was based out of China. China has a large waste management issue, and their landfills are mostly filled in urban areas. The results of the study indicated different waste management fees for metal, wood, and masonry waste as $9.30, $5.92, and $4.25, respectively. The cost of waste management per square meter, or just under 11 square feet, on average was found to be $0.12.[13] This type of waste management system requires top-down legislative action. It is not a choice the contractor has the luxury of making on his/her own.

Europe

In the European Union (EU), there is now significant emphasis on recycling building materials and adopting a cradle-to-grave ideology when it comes to building design, construction, and demolition. Their suggestions are much clearer and easier at the local or regional level, depending on government structure. In the 2016 EU Construction & Demolition Waste Management Protocol, they emphasize the benefits beyond financial gains for recycling such as job creation and reduced landfilling. They also emphasize the consideration of supply and demand geography; if the recycling plants are closer to urban areas than the aggregate quarries this can incentivize companies to use this recycled product even if it is not initially cheaper. In Austria, there are new improvements in the recycling of unusable wood products to be burnt in the creation of cement which offsets the carbon footprint of both products.[14]

The EU urges local authorities who issue demolition and renovation permits to ensure that a high-quality waste management plan is being followed, and they emphasize the need for post-demolition follow-ups in order to determine if the implemented plans are being followed. They also suggest the use of taxation to reduce the economic advantage of the landfills to create a situation where recycling becomes a reasonable choice financially. However, they do include the fact that the tax should only apply to recyclable waste materials. The main points of how the Europeans choose to address this issue of waste management is through the utilization of the tools given to a governing body to keep its people safe. Unlike in the United States, the EU's philosophy on waste management is not that it is an optional good thing to do when you can but a mandatory part of construction in the 21st century to ensure a healthy future for generations to follow.

Taxing landfill has been most effective in Belgium, Denmark and Austria, which have all decreased their landfill disposal by over 30% since introducing the tax. Denmark successfully cut its landfill use by over 80%, reaching a recycling rate over 60%. In the United Kingdom, all personnel performing builders or construction waste clearance are required by law to be working for a CIS registered business.[15] However, the waste generation in the UK continues to grow, but the rate of increase has slowed.[16]

A panorama of construction waste in Horton, Norway

United States

The United States has no national landfill tax or fee, but many states and local governments collect taxes and fees on the disposal of solid waste. The California Department of Resource Recycling and Recovery (CalRecycle) was created in 2010 to address the growing C&D waste problem in the United States. CalRecycle aids in the creation of C&D waste diversion model ordinance in local jurisdictions. They also provide information and other educational material on alternative C&D waste facilities. They promote these ordinances by creating incentive programs to encourage companies to participate in the waste diversion practices. There are also available grants and loans to aid organizations in their waste reduction strategies.[16]

See also

References

  1. ^ a b US EPA, OLEM (2016-03-08). "Sustainable Management of Construction and Demolition Materials". US EPA. Retrieved .
  2. ^ "Construction and Demolition Materials". www.calrecycle.ca.gov. Retrieved .
  3. ^ Hubbe, Martin A. (2014-11-03). "What Next for Wood Construction/Demolition Debris?". BioResources. 10 (1). doi:10.15376/biores.10.1.6-9. ISSN 1930-2126.
  4. ^ "Municipal Solid Waste and Construction & Demolition Debris | Bureau of Transportation Statistics". www.bts.gov. Retrieved .
  5. ^ Skoyles ER. Skoyles JR. (1987) Waste Prevention on Site. Mitchell Publishing, London. ISBN 0-7134-5380-X
  6. ^ Thibodeau, Kenneth (2007-07-02). "The Electronic Records Archives Program at the National Archives and Records Administration". First Monday. doi:10.5210/fm.v12i7.1922. ISSN 1396-0466.
  7. ^ a b c Formoso, Carlos T.; Soibelman, Lucio; De Cesare, Claudia; Isatto, Eduardo L. (2002-08-01). "Material Waste in Building Industry: Main Causes and Prevention". Journal of Construction Engineering and Management. 128 (4): 316-325. doi:10.1061/(ASCE)0733-9364(2002)128:4(316). ISSN 0733-9364.
  8. ^ Shooshtarian, Salman; Maqsood, Tayyab; Wong, Peter SP; Yang, Rebecca J. (2020). "Review of waste strategy documents in Australia: analysis of strategies for construction and demolition waste". International Journal of Environmental Technology and Management. 23 (1): 1-21. doi:10.1504/IJETM.2020.110147.
  9. ^ "RECYCLING CONSTRUCTION AND DEMOLITION WASTES A Guide for Architects and Contractors" (PDF). April 2005.
  10. ^ Shooshtarian, Salman (2020). "Landfill levy imposition on construction and demolition waste: Australian stakeholders' perceptions". Sustainability. 12 (11): 4496. doi:10.3390/su12114496.
  11. ^ "Construction Waste Management | WBDG Whole Building Design Guide". www.wbdg.org. Retrieved .
  12. ^ Poon, C. S.; Yu, Ann T. W.; Wong, Agnes; Yip, Robin (2013-05-01). "Quantifying the Impact of Construction Waste Charging Scheme on Construction Waste Management in Hong Kong". Journal of Construction Engineering and Management. 139 (5): 466-479. doi:10.1061/(ASCE)CO.1943-7862.0000631. hdl:10397/6714. ISSN 1943-7862.
  13. ^ Wang, Jiayuan; Wu, Huanyu; Tam, Vivian W. Y.; Zuo, Jian (2019). "Considering life-cycle environmental impacts and society's willingness for optimizing construction and demolition waste management fee: An empirical study of China". Journal of Cleaner Production. ISSN 0959-6526.
  14. ^ Anonymous (2018-09-18). "EU Construction and Demolition Waste Protocol and Guidelines". Internal Market, Industry, Entrepreneurship and SMEs - European Commission. Retrieved .
  15. ^ "Construction Industry Scheme (CIS)". GOV.UK. Retrieved .
  16. ^ a b Yu, A.; Poon, C.; Wong, A.; Yip, R.; Jaillon, L. (2013). "Impact of Construction Waste Disposal Charging Scheme on work practices at construction sites in Hong Kong". Waste Management. 33 (1): 138-146. doi:10.1016/j.wasman.2012.09.023. hdl:10397/6713. PMID 23122205. S2CID 20266040.

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