Relationship between operational properties of peat heat-insulating materials and the content of mineral binders in them

Синицын, Антон; Voropay, Ludmila; Salikhova, Regina; Yukhtarova, Olga

doi:10.1051/e3sconf/202017801047

Cited by 4 publications

(5 citation statements)

References 7 publications

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“…These characteristics are also comparable with the characteristics of thermal insulation material made of low-moor peat with binder, frame component (wooden aggregate), and additive (Vasiļjeva and Korjakins, 2017). Our previous studies (Sinitsyn et al, 2020; have shown that introducing a three-component polymer into a composite mixture consisting of high-lying peat, sawdust and gypsum increases mechanical strength while decreasing average density and thermal conductivity. However, further testing showed that the polymer engulfs the gypsum, peat, and sawdust particles, causing a gradual decrease in porosity during the formation of a solid structure.…”

Section: Figure 5 Relationship Between Product Yield and High-lying Psupporting

confidence: 74%

The Influence of the Relative Content of Peat and Mineral Binder on Thermal Insulation Composite Performance Characteristics

Voropai¹,

Кузнецова²,

Синицын³

et al. 2020

IJTech

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Section: Figure 5 Relationship Between Product Yield and High-lying Psupporting

confidence: 74%

The Influence of the Relative Content of Peat and Mineral Binder on Thermal Insulation Composite Performance Characteristics

Voropai¹,

Кузнецова²,

Синицын³

et al. 2020

IJTech

Self Cite

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“…Using different methods, peat can produce thermal insulation and raw materials in various construction materials substrates, and pharmaceutical products [152][153][154][155][156]. Also, an agro-industrial resource, peat, has a high but not fully used potential [57,58].…”

Section: Technologies and Technological Processes In Peat Processingmentioning

confidence: 99%

“…Peat soil can be a promising addi-tive in construction materials, strengthening the durability of masonry blocks to meet necessary building standards. It is possible to improve building materials' characteristics, including insulation properties, using peat as an additive or producing the products themselves [99,[152][153][154][155][156]. In building materials, cement has often been used with high-lying peat, moistening peat with water first.…”

Section: Building Materialsmentioning

confidence: 99%

“…In building materials, cement has often been used with high-lying peat, moistening peat with water first. Then, after the peat is wholly saturated with water, calcium oxide, which can be obtained by calcining limestone, is added to the peat [154]. The search for alternative and innovative thermal insulation solutions in renovation has been more common recently, including using peat as a raw material or additive in thermal insulation panels [57,93,155,156].…”

Section: Building Materialsmentioning

confidence: 99%

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Pros and Cons of Strategies to Reduce Greenhouse Gas Emissions from Peatlands: Review of Possibilities

Balode,

Bumbiere,

Sosars

et al. 2024

Applied Sciences

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Peatlands can become valuable resources and greenhouse gas sinks through the use of different management practices. Peatlands provide carbon sequestration; however, they are also among the greatest greenhouse gas emissions sources. The estimated annual carbon dioxide equivalent emissions from peat worldwide are 220 million tons. Novel strategies, methods, and technologies must be developed to enhance the sustainable use of peatlands and achieve climate targets by 2050, as set forth by the European Commission. There is no consensus in the scientific literature on which strategies included in the policy documents are more fruitful for reducing emissions. There are uncertainties and knowledge gaps in the literature that summarise the cons and benefits of each strategy regarding the potential of GHG emission reduction. Currently, peat is undervalued as a resource in the bioeconomy and innovation—a way that could save costs in peatland management. This review paper aims to analyse existing and potential strategies to minimise greenhouse gas emissions from peatlands. Studies show significant debates in the literature on whether the rewetting of peatlands and afforestation of previously drained peatlands can be defined as restoration. A more effective management of peatland restoration should involve combining restoration methods. The rewetting of peatlands should be realised in combination with top-soil removal to minimise methane emissions. The rewetting of peatlands should be used only in combination with revegetation after rewetting. One of the promising solutions for methane emission reduction could be paludiculture using sphagnum species. Products from paludiculture biomass can reduce GHG emissions and store long-term emissions in products. Paludiculture can also be the solution for further income for landowners and innovative products using the biomass of harvested paludiculture plants.

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“…При производстве ТИМ с применением кремнийорганических полимеров в качестве вяжущих и природных теплоизоляторов используют низинный торф, в том числе из торфяников Грязовецкого и Вологодского районов Вологодской области [13]. Степень гумификации верховой торф составляет 14…16 % (слаборазложившийся); низинного -39 % (сильноразложившийся).…”

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Investigation of the Influence of the Degree of Composition of Peat on the Characteristics of Composite Thermal Insulation Materials

Voropai¹,

Кузнецова²,

Синицын³

et al. 2023

Vestnik of Kazan State Agrarian University

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The paper presents the results of studies of the influence of the degree of humification of peat on the mechanical and thermal insulation properties of composite thermal insulation materials. Peat samples were taken from a deposit in Totemsky district of the Vologda region from depths of 0.5 and 2 m. Highland peat (from a depth of 0.5 m) has a low degree of decomposition - 14...16 %, lowland peat (from a depth of 2 m) has a degree of decomposition of 39 %. The physicochemical analysis of the studied peat samples was carried out. The chemical composition of the water extract and the characteristics of peat are determined by gravimetric, titrimetric, ionometric, photoelectrocolorimetric methods of analysis. The results of the analysis showed that, depending on the depth, peat has the following characteristics: the moisture content of highland peat is 41.8...42.1 %, lowland peat - 54.21...54.23 %; the content of organic substances in the highland peat is 81.72...81.75%, in the lowland peat - 88.18...88.21%; the ash content of highland peat is 18.25...18.28%, lowland peat - 11.79...11.82%. Based on peat samples, heat-insulating mixture samples were created containing: 30...50% highland peat, 25...45% lowland peat, acting as a natural heat insulator and binder; 5% undecomposed plant residues acting as a binder; 10% peat extract containing resinous and sugary fractions and 10% organosilicon polymer (OSP) brand KS-12 to increase the strength characteristics. After cooling the finished composite heat-insulating mixtures, their characteristics were studied, namely: average density (Fig. a), thermal conductivity coefficient (Fig. b), compressive strength (Fig. c) and ignition temperature (Fig. d). The research results showed that an increase in the proportion of highland peat (with a low degree of decomposition) in the mixture leads to a decrease in the average density from 238 to 229 kg/m3, a decrease in the thermal conductivity coefficient from 0.048 to 0.042 W/mK, a decrease in the compressive strength from 1.47 mPa to 1.17 mPa and a decrease in the ignition temperature from 748 to 690 °C.

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Relationship between operational properties of peat heat-insulating materials and the content of mineral binders in them

Cited by 4 publications

References 7 publications

The Influence of the Relative Content of Peat and Mineral Binder on Thermal Insulation Composite Performance Characteristics

The Influence of the Relative Content of Peat and Mineral Binder on Thermal Insulation Composite Performance Characteristics

Pros and Cons of Strategies to Reduce Greenhouse Gas Emissions from Peatlands: Review of Possibilities

Investigation of the Influence of the Degree of Composition of Peat on the Characteristics of Composite Thermal Insulation Materials

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