TY  - JOUR
AU  - Bošković, Ilija
AU  - Radivojević, Ana
PY  - 2024
UR  - https://raf.arh.bg.ac.rs/handle/123456789/2044
AB  - Using sustainable building materials is one of the key methods for minimising the negative environmental impacts of the global construction industry. Bio-based buildings building materials, such as hemp-lime concrete, are considered more sustainable, as they make use of a renewable raw material and can sequester CO2 from the atmosphere. Studies have shown that hemp-lime concrete can have a favourable global warming potential, though the life cycle of building materials affects a wide variety of negative environmental phenomena that should also be considered. Studies examining the life cycle of hemp-lime concrete have so far primarily focused on the material itself. Though the exterior surface of a hemp-lime concrete wall needs to be protected and have a finish applied to it, few studies have considered the environmental impacts of coated hemp-lime concrete wall constructions. Using life cycle assessment methodology, through a wide range of environmental impact categories, the study analysed the environmental impacts of applying lime putty and sand coatings to a hemp-lime concrete wall in pessimistic, average and optimistic scenarios, It also compared the environmental impacts of four types of appropriate wall finishes and the impacts of applying varying finish renewal regimes in the use phase. It was found that applying lime putty and sand finishes to the exterior and interior surface of a hemp lime concrete wall increased the total global warming potential by 19.054–30.793 kgCO2eq and had a noticeable effect on all other impact categories. It was found that while no one finish type could be considered globally superior to the others, in a majority of circumstances applying lime-based coatings resulted in lower embodied environmental impacts, than applying a ventilated façade with timber cladding.
PB  - Elsevier Ltd.
T2  - Journal of Building Engineering
T1  - Life cycle assessment of hemp-lime concrete wall constructions: The impact of wall finish type and renewal regimes
VL  - 86
SP  - 108940
DO  - 10.1016/j.jobe.2024.108940
ER  - 

@article{
author = "Bošković, Ilija and Radivojević, Ana",
year = "2024",
abstract = "Using sustainable building materials is one of the key methods for minimising the negative environmental impacts of the global construction industry. Bio-based buildings building materials, such as hemp-lime concrete, are considered more sustainable, as they make use of a renewable raw material and can sequester CO2 from the atmosphere. Studies have shown that hemp-lime concrete can have a favourable global warming potential, though the life cycle of building materials affects a wide variety of negative environmental phenomena that should also be considered. Studies examining the life cycle of hemp-lime concrete have so far primarily focused on the material itself. Though the exterior surface of a hemp-lime concrete wall needs to be protected and have a finish applied to it, few studies have considered the environmental impacts of coated hemp-lime concrete wall constructions. Using life cycle assessment methodology, through a wide range of environmental impact categories, the study analysed the environmental impacts of applying lime putty and sand coatings to a hemp-lime concrete wall in pessimistic, average and optimistic scenarios, It also compared the environmental impacts of four types of appropriate wall finishes and the impacts of applying varying finish renewal regimes in the use phase. It was found that applying lime putty and sand finishes to the exterior and interior surface of a hemp lime concrete wall increased the total global warming potential by 19.054–30.793 kgCO2eq and had a noticeable effect on all other impact categories. It was found that while no one finish type could be considered globally superior to the others, in a majority of circumstances applying lime-based coatings resulted in lower embodied environmental impacts, than applying a ventilated façade with timber cladding.",
publisher = "Elsevier Ltd.",
journal = "Journal of Building Engineering",
title = "Life cycle assessment of hemp-lime concrete wall constructions: The impact of wall finish type and renewal regimes",
volume = "86",
pages = "108940",
doi = "10.1016/j.jobe.2024.108940"
}

Bošković, I.,& Radivojević, A.. (2024). Life cycle assessment of hemp-lime concrete wall constructions: The impact of wall finish type and renewal regimes. in Journal of Building Engineering
Elsevier Ltd.., 86, 108940.
https://doi.org/10.1016/j.jobe.2024.108940

Bošković I, Radivojević A. Life cycle assessment of hemp-lime concrete wall constructions: The impact of wall finish type and renewal regimes. in Journal of Building Engineering. 2024;86:108940.
doi:10.1016/j.jobe.2024.108940 .

Bošković, Ilija, Radivojević, Ana, "Life cycle assessment of hemp-lime concrete wall constructions: The impact of wall finish type and renewal regimes" in Journal of Building Engineering, 86 (2024):108940,
https://doi.org/10.1016/j.jobe.2024.108940 . .

TY  - JOUR
AU  - Bošković, Ilija
AU  - Radivojević, Ana
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1467
AB  - The construction industry contributes to climate change through significant greenhouse gas emissions. Utilising sustainable building materials with low embodied environmental impacts and low greenhouse gas emissions is key to future sustainable development. Bio-based materials, such as hemp-lime concrete, possess environmental advantages as they make use of a renewable raw material and can sequester CO2 from the atmosphere. Through the use of life cycle assessment methodology the study analyses the greenhouse gas emissions associated with the life cycle of a hemp-lime concrete wall and examines the effects of variations that can arise during the life cycle of the material. Sensitivity analyses were used to examine the effects of varying the hemp shiv sequestration factor, binder carbonation factor, gate to site transport distances and raw material construction waste on greenhouse gas emissions, culminating in the creation of three primary emission scenarios (average, pessimistic and optimistic). It was found that the examined variables can have a large impact on greenhouse gas emissions and the environmental perception of the material, as the optimistic life cycle scenario had a negative global warming potential (−9.696kgCO2eq.), while the pessimistic scenario had a positive global warming potential (10.165kgCO2eq.). Additionally alternative end of life scenarios were developed to examine the effects of varying hemp shiv degradability at the end of life stage, demonstrating the potentially large impacts a high factor of degradable organic carbon can have on life cycle greenhouse gas emissions.
PB  - Elsevier Ltd.
T2  - Journal of Building Engineering
T1  - Life cycle greenhouse gas emissions of hemp-lime concrete wall constructions in Serbia: The impact of carbon sequestration, transport, waste production and end of life biogenic carbon emission
VL  - 66
SP  - 105908
DO  - 10.1016/j.jobe.2023.105908
ER  - 

@article{
author = "Bošković, Ilija and Radivojević, Ana",
year = "2023",
abstract = "The construction industry contributes to climate change through significant greenhouse gas emissions. Utilising sustainable building materials with low embodied environmental impacts and low greenhouse gas emissions is key to future sustainable development. Bio-based materials, such as hemp-lime concrete, possess environmental advantages as they make use of a renewable raw material and can sequester CO2 from the atmosphere. Through the use of life cycle assessment methodology the study analyses the greenhouse gas emissions associated with the life cycle of a hemp-lime concrete wall and examines the effects of variations that can arise during the life cycle of the material. Sensitivity analyses were used to examine the effects of varying the hemp shiv sequestration factor, binder carbonation factor, gate to site transport distances and raw material construction waste on greenhouse gas emissions, culminating in the creation of three primary emission scenarios (average, pessimistic and optimistic). It was found that the examined variables can have a large impact on greenhouse gas emissions and the environmental perception of the material, as the optimistic life cycle scenario had a negative global warming potential (−9.696kgCO2eq.), while the pessimistic scenario had a positive global warming potential (10.165kgCO2eq.). Additionally alternative end of life scenarios were developed to examine the effects of varying hemp shiv degradability at the end of life stage, demonstrating the potentially large impacts a high factor of degradable organic carbon can have on life cycle greenhouse gas emissions.",
publisher = "Elsevier Ltd.",
journal = "Journal of Building Engineering",
title = "Life cycle greenhouse gas emissions of hemp-lime concrete wall constructions in Serbia: The impact of carbon sequestration, transport, waste production and end of life biogenic carbon emission",
volume = "66",
pages = "105908",
doi = "10.1016/j.jobe.2023.105908"
}

Bošković, I.,& Radivojević, A.. (2023). Life cycle greenhouse gas emissions of hemp-lime concrete wall constructions in Serbia: The impact of carbon sequestration, transport, waste production and end of life biogenic carbon emission. in Journal of Building Engineering
Elsevier Ltd.., 66, 105908.
https://doi.org/10.1016/j.jobe.2023.105908

Bošković I, Radivojević A. Life cycle greenhouse gas emissions of hemp-lime concrete wall constructions in Serbia: The impact of carbon sequestration, transport, waste production and end of life biogenic carbon emission. in Journal of Building Engineering. 2023;66:105908.
doi:10.1016/j.jobe.2023.105908 .

Bošković, Ilija, Radivojević, Ana, "Life cycle greenhouse gas emissions of hemp-lime concrete wall constructions in Serbia: The impact of carbon sequestration, transport, waste production and end of life biogenic carbon emission" in Journal of Building Engineering, 66 (2023):105908,
https://doi.org/10.1016/j.jobe.2023.105908 . .

TY  - CONF
AU  - Bošković, Ilija
AU  - Radivojević, Ana
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1455
AB  - Due to the difficult economic situation within Serbia, rural areas find themselves on the margins of investment and development, creating a deep rural-urban divide. Much of Serbia can be characterized as rural with a large segment of the population living in rural settlements defined by socio-economic stagnation or degradation. Revitalizing rural regions is thus important for the socio-economic wellbeing of the entire country and mitigating the rural-urban divide can be key to the sustainable development of urban areas. Much of the built environment in Serbia has a low level of energy efficiency and though public perception has improved, the focus is on improving operational energy, while the embodied environmental impact of building materials is rarely considered. This paper details and analyses the main problems facing rural areas in Serbia. As agriculture is still the primary economic activity in rural areas, it suggests that the development and application of
bio-based building materials created from the by-products of agriculture, can be an important element of further strategies for sustainable development in Serbia. In particular industrial hemp, which was once an important and abundant crop in Serbia, is currently experiencing a significant resurgence. This paper demonstrates that hemp-lime concrete may be a particularly suitable building material for encouraging new economic activity in rural areas and promoting sustainable design in both rural and urban areas.
PB  - Oakland, CA : Ecocity Builders
C3  - Ecocity World Summit 2021-22: Conference Proceedings, Rotterdam, 2022
T1  - Promoting bio-based building materials as a means of bridging the urban-rural divide in Serbia
SP  - 343
EP  - 351
UR  - https://hdl.handle.net/21.15107/rcub_raf_1455
ER  - 

@conference{
author = "Bošković, Ilija and Radivojević, Ana",
year = "2022",
abstract = "Due to the difficult economic situation within Serbia, rural areas find themselves on the margins of investment and development, creating a deep rural-urban divide. Much of Serbia can be characterized as rural with a large segment of the population living in rural settlements defined by socio-economic stagnation or degradation. Revitalizing rural regions is thus important for the socio-economic wellbeing of the entire country and mitigating the rural-urban divide can be key to the sustainable development of urban areas. Much of the built environment in Serbia has a low level of energy efficiency and though public perception has improved, the focus is on improving operational energy, while the embodied environmental impact of building materials is rarely considered. This paper details and analyses the main problems facing rural areas in Serbia. As agriculture is still the primary economic activity in rural areas, it suggests that the development and application of
bio-based building materials created from the by-products of agriculture, can be an important element of further strategies for sustainable development in Serbia. In particular industrial hemp, which was once an important and abundant crop in Serbia, is currently experiencing a significant resurgence. This paper demonstrates that hemp-lime concrete may be a particularly suitable building material for encouraging new economic activity in rural areas and promoting sustainable design in both rural and urban areas.",
publisher = "Oakland, CA : Ecocity Builders",
journal = "Ecocity World Summit 2021-22: Conference Proceedings, Rotterdam, 2022",
title = "Promoting bio-based building materials as a means of bridging the urban-rural divide in Serbia",
pages = "343-351",
url = "https://hdl.handle.net/21.15107/rcub_raf_1455"
}

Bošković, I.,& Radivojević, A.. (2022). Promoting bio-based building materials as a means of bridging the urban-rural divide in Serbia. in Ecocity World Summit 2021-22: Conference Proceedings, Rotterdam, 2022
Oakland, CA : Ecocity Builders., 343-351.
https://hdl.handle.net/21.15107/rcub_raf_1455

Bošković I, Radivojević A. Promoting bio-based building materials as a means of bridging the urban-rural divide in Serbia. in Ecocity World Summit 2021-22: Conference Proceedings, Rotterdam, 2022. 2022;:343-351.
https://hdl.handle.net/21.15107/rcub_raf_1455 .

Bošković, Ilija, Radivojević, Ana, "Promoting bio-based building materials as a means of bridging the urban-rural divide in Serbia" in Ecocity World Summit 2021-22: Conference Proceedings, Rotterdam, 2022 (2022):343-351,
https://hdl.handle.net/21.15107/rcub_raf_1455 .