scholarly journals Regionalised Life Cycle Assessment of Bio-Based Materials in Construction; the Case of Hemp Shiv Treated with Sol-Gel Coatings

Materials ◽  
2019 ◽  
Vol 12 (18) ◽  
pp. 2987 ◽  
Author(s):  
Mohammad Davoud Heidari ◽  
Michael Lawrence ◽  
Pierre Blanchet ◽  
Ben Amor
Keyword(s):  
Life Cycle ◽  
Carbon Footprint ◽  
Sol Gel ◽  
Construction Materials ◽  
Building Envelope ◽  
Environmental Damage ◽  
Specific Information ◽  
U Value ◽  
Hemp Shiv ◽  
The Impact

Interest in intrinsically low-energy construction materials is becoming mainstream, and bio-based materials form a key part of that group of materials. The goal of this study was to analyse the environmental impact of applying a sol-gel coating on hemp shiv, in order to improve the durability of this innovative bio-based material, using a regionalised LCA model, taking into account regional specific peculiarities. This study analysed the environmental performance of using bio-based materials in the building envelope compared with traditional synthetic construction materials, and compared the impact of a regionalised approach with a global approach. The carbon footprint of treated hemp shiv in a wall with a U-value of 0.15 W/m2.K was compared to untreated hempcrete and a reference cavity wall with the same U-value. Considering the environmental damage caused by the production of hemp shiv, nitrogen fertiliser was the hotspot. The LCA results showed that, using innovative bio-based materials in construction, treated hemp shiv with sol-gel can decrease the carbon footprint of a building envelope through carbon sequestration. Using the more accurate site-specific information in life cycle inventory and impact assessment methods will result in more consistent and site-appropriate environmental results for decision-making.

scholarly journals Comparison of the Applied Measures on the Simulated Scenarios for the Sustainable Building Construction through Carbon Footprint Emissions—Case Study of Building Construction in Serbia

2018 ◽  
Vol 10 (12) ◽  
pp. 4688
Author(s):  
Marina Nikolić Topalović ◽  
Milenko Stanković ◽  
Goran Ćirović ◽  
Dragan Pamučar
Keyword(s):  
Energy Efficiency ◽  
Life Cycle ◽  
Carbon Footprint ◽  
Phase 1 ◽  
Construction Materials ◽  
Building Construction ◽  
Long Term Effects ◽  
Embodied Carbon ◽  
Long Run ◽  
The Impact

Research was conducted to indicate the impact of the increased flow of thermal insulation materials on the environment due to the implementation of the new regulations on energy efficiency of buildings. The regulations on energy efficiency of buildings in Serbia came into force on 30 September 2012 for all new buildings as well as for buildings in the process of rehabilitation and reconstruction. For that purpose, the carbon footprint was analyzed in three scenarios (BS, S1 and S2) for which the quantities of construction materials and processes were calculated. The life cycle analysis (LCA), which is the basis for analyzing the carbon life cycle (LCACO2), was used in this study. Carbon Calculator was used for measuring carbon footprint, and URSA program to calculate the operational energy. This study was done in two phases. In Phase 1, the embodied carbon was measured to evaluate short-term effects of the implementation of the new regulations. Phase 2 included the first 10 years of building exploitation to evaluate the long-term effects of the new regulations. The analysis was done for the period of 10 years, further adjustments to the regulations regarding energy efficiency of the buildings in Serbia are expected in accordance with EU directives. The study shows that, in the short-run, Scenario BS has the lowest embodied carbon. In the long-run, after 3.66 years, Scenario S2 becomes a better option regarding the impact on the environment. The study reveals the necessity to include embodied carbon together with the whole life carbon to estimation the impact of a building on the environment.

Impact of roof shading on building energy performance in warm & humid climatic places of India

2020 ◽  
pp. 50-64
Author(s):  
Kuladeep Kumar Sadevi ◽  
Avlokita Agrawal
Keyword(s):  
Energy Consumption ◽  
Energy Conservation ◽  
Energy Performance ◽  
General Assumption ◽  
Climatic Conditions ◽  
Building Envelope ◽  
Passive Cooling ◽  
Base Case ◽  
U Value ◽  
The Impact

With the rise in awareness of energy efficient buildings and adoption of mandatory energy conservation codes across the globe, significant change is being observed in the way the buildings are designed. With the launch of Energy Conservation Building Code (ECBC) in India, climate responsive designs and passive cooling techniques are being explored increasingly in building designs. Of all the building envelope components, roof surface has been identified as the most significant with respect to the heat gain due to the incident solar radiation on buildings, especially in tropical climatic conditions. Since ECBC specifies stringent U-Values for roof assembly, use of insulating materials is becoming popular. Along with insulation, the shading of the roof is also observed to be an important strategy for improving thermal performance of the building, especially in Warm and humid climatic conditions. This study intends to assess the impact of roof shading on building’s energy performance in comparison to that of exposed roof with insulation. A typical office building with specific geometry and schedules has been identified as base case model for this study. This building is simulated using energy modelling software ‘Design Builder’ with base case parameters as prescribed in ECBC. Further, the same building has been simulated parametrically adjusting the amount of roof insulation and roof shading simultaneously. The overall energy consumption and the envelope performance of the top floor are extracted for analysis. The results indicate that the roof shading is an effective passive cooling strategy for both naturally ventilated and air conditioned buildings in Warm and humid climates of India. It is also observed that a fully shaded roof outperforms the insulated roof as per ECBC prescription. Provision of shading over roof reduces the annual energy consumption of building in case of both insulated and uninsulated roofs. However, the impact is higher for uninsulated roofs (U-Value of 3.933 W/m2K), being 4.18% as compared to 0.59% for insulated roofs (U-Value of 0.33 W/m2K).While the general assumption is that roof insulation helps in reducing the energy consumption in tropical buildings, it is observed to be the other way when insulation is provided with roof shading. It is due to restricted heat loss during night.

scholarly journals Life Cycle Analysis Methods on Environmental Impact Assessment (EIA) Procedures in the Perspective of Sustainable Development

2018 ◽  
Vol 74 ◽  
pp. 11003
Author(s):  
Andreas Pramudianto
Keyword(s):  
Sustainable Development ◽  
Life Cycle ◽  
Environmental Impact ◽  
Impact Assessment ◽  
Environmental Impact Assessment ◽  
Life Cycle Analysis ◽  
Environmental Science ◽  
Decision Makers ◽  
Environmental Damage ◽  
The Impact

Basically each product or service has its own life cycle. Life Cycle Analysis Method can be used to assess the impact of an activity both production and service activities. Environmental Impact Assessment (EIA) or Analisis Mengenai Dampak Lingkungan (AMDAL) is one of the activities that must be fulfilled in order to obtain an environmental permit. EIA activities have a life cycle process that needs to be known and understood so that environmental permits can be obtained. Therefore this study aims to find out the use of the LCA method in EIA procedures. In addition, with the LCA method, EIA activities are expected to be well studied according to the function of this service. LCA can provide to reduce the least impact from environmental damage. This research will be useful for the development of environmental science, especially related to the study of environmental impacts, especially EIA. It is expected that the results of the study will provide a complete picture of the relevance of the LCA method with EIA and the benefits that can be taken. The results of this study will be an important recommendation for decision makers regarding the importance of EIA in development, especially sustainable development through the method used, namely LCA.

The climatic influence on sustainable refurbishments and life cycle investing in Australia

2015 ◽  
Vol 33 (1) ◽  
pp. 19-35
Author(s):  
Chris Heywood ◽  
Eckhart Hertzsch ◽  
Mirek Piechowski
Keyword(s):  
Life Cycle ◽  
Asset Management ◽  
Net Present Value ◽  
Capital Expenditure ◽  
Ghg Emissions ◽  
Integrated Approach ◽  
Building Envelope ◽  
Research Project ◽  
Content Type ◽  
The Impact

Purpose – The purpose of this paper is to report an investigation of the effect of location on refurbishment strategies to reduce greenhouse gas (GHG) emissions using the temperate and sub-tropical urban locations in Australia. This occurred within a larger research project that investigated methods for sustainable refurbishments to office buildings and their optimized timing from an investment perspective. Design/methodology/approach – An office building in Melbourne was used to develop seven sets of improvements using an integrated approach to upgrade mechanical services and the building envelope. Using asset management trigger points the impact on net present value and internal rate of return were calculated, taking into account the capital expenditure required, the energy savings due to the refurbishment, as well as a possible rental increase due to the upgrade and lesser operational energy bills for the tenants. To investigate the importance of the location attribute the upgraded building’s performance was modelled in a different climate by using a Brisbane weather file. Findings – A number of unexpected results were found, including that the same sets of improvements had similar reductions in GHG emissions in the two locations, they had similar impacts on the investment criteria and when using the National Australian Building Energy Rating System it was shown that it was easier and cheaper to get an uplift in stars in Melbourne than Brisbane. Research limitations/implications – This location-specific analysis is the result of using a more sophisticated and holistic methodology to analyse sustainable refurbishments that more closely resembles the complexity of the decision making required to make buildings more sustainable. Practical implications – This paper provides a basis for property investors to make decisions about sustainable investments when location is important. This can occur when a portfolio is distributed across various climate zones. Originality/value – The research project that the paper reports addresses the complexity of building attributes, possible sets of improvements to reduce GHG emissions and their investment decisions, within a life cycle view of assets. It is rare that this complexity is addressed as a whole, and rarer that locational climatic differences are examined.

scholarly journals Life Cycle Assessment of Methyl Bromide Production and Utilization: Cradle to Grave Analysis

2021 ◽  
Author(s):  
Sampatrao Manjare ◽  
Amit Shanbag
Keyword(s):  
Life Cycle Assessment ◽  
Life Cycle ◽  
Methyl Bromide ◽  
Substantial Effect ◽  
Environmental Damage ◽  
Methanol Production ◽  
Health Related ◽  
Cradle To Gate ◽  
Ozone Depleting Substances ◽  
The Impact

Abstract Methyl bromide is an effective and useful insecticide. It has ability to enter rapidly into materials at room temperature & pressure. Nowadays, it is primarily used for container fumigation purposes. However, exposure to it causes serious health-related issues. It is also one of the ozone-depleting substances. In this work, “cradle to gate” and “cradle to grave” approaches are considered to carry out a life cycle assessment of methyl bromide production. SimaPro software with the IMPACT 2002+ method is used to compute the results. From the results of cradle to gate approach, it is inferred that major emissions are due to usage of plant utilities and methanol production process which have a substantial effect on the atmosphere. From the results of cradle to grave approach, it is noted that application of methyl bromide causes significant environmental damage particularly to ozone layer followed by non-carcinogen.

scholarly journals Carbon Footprint and Variable Costs of Production Components for a Container-grown Evergreen Shrub Using Life Cycle Assessment: An East Coast U.S. Model

HortScience ◽  
2016 ◽  
Vol 51 (8) ◽  
pp. 989-994 ◽  
Author(s):  
Dewayne L. Ingram ◽  
Charles R. Hall ◽  
Joshua Knight
Keyword(s):  
Life Cycle Assessment ◽  
Life Cycle ◽  
Carbon Footprint ◽  
East Coast ◽  
Cultural Practices ◽  
Variable Cost ◽  
Labor Costs ◽  
Evergreen Shrub ◽  
Assessment Period ◽  
The Impact

The production components of an evergreen shrub (Ilex crenata ‘Bennett’s Compacta’) grown in a no. 3 container in an east coast U.S. nursery were analyzed for their costs and contributions to carbon footprint, as well as the product impact in the landscape throughout its life cycle. A life cycle inventory was conducted of input materials, equipment use, and all cultural practices and other processes used in a model production system for this evergreen shrub. A life cycle assessment (LCA) of the model numerated the associated greenhouse gas emissions (GHG), carbon footprint, and variable cost of each component. The LCA also included the transportation and transplanting of the final product in the landscape as well as its removal after a 40-year useful life. GHG from input products and processes during the production (cutting-to-gate) of the evergreen shrub were estimated to be 2.918 kg CO2e. When considering carbon sequestration during production weighted over a 100-year assessment period, the carbon footprint for this model system at the nursery gate was 2.144 kg CO2e. Operations, combining the impact of material and equipment use, that contributed most of GHG during production included fertilization (0.707 kg CO2e), the liner and transplanting (0.461 kg CO2e), the container (0.468 kg CO2e), gravel and ground cloth installation (0.222 kg CO2e), substrate materials and preparation (0.227 kg CO2e), and weed control (0.122 kg CO2e). The major contributors to global warming potential (GWP) were also major contributors to the cutting-to-gate variable costs ($3.224) except for processes that required significant labor investments. Transporting the shrub to the landscaper, transporting it to the landscape site, and transplanting it would result in GHG of 0.376, 0.458, and 0 kg CO2e, respectively. Variable costs for postharvest activities were $6.409 and were dominated by labor costs (90%).

scholarly journals The impact of digitalization on the Intellectual capital formation and use (case of service enterprises)

2020 ◽  
Vol 217 ◽  
pp. 06009
Author(s):  
Oksana Pirogova ◽  
Vladimir Plotnikov ◽  
Ivan Makarov ◽  
Andrey Grafov
Keyword(s):  
Life Cycle ◽  
Intellectual Capital ◽  
Service Sector ◽  
Institutional Environment ◽  
Specific Information ◽  
Sales Growth ◽  
Enterprise Life Cycle ◽  
New Type ◽  
The Impact ◽  
Indirect Action

The article discusses the directions, problems and results of using digital solutions in enterprises in the service sector. It is shown that digitalization in the service sector is due to the emergence of a new type of resource - a large amount of specific information about stakeholders. Digitalization has a direct effect on enterprises in the service sector in the form of the development of the institutional environment and the technical infrastructure of digitalization, as well as an indirect action related to the transformation of the enterprises of this industry themselves, their missions and goals. The areas of digitalization in the service sector are indicated. It is shown that the use of digital technologies affects cost reduction and sales growth, and also has a significant impact on the formation and use of the intellectual capital of service enterprises. The features of the formation of the intellectual capital of the enterprise at the stages of the life cycle are considered. The elements of intellectual capital are clarified, which have received an impetus for development due to digitalization. Possible positive directions of the impact of digitalization on the elements of intellectual capital are presented, and the dynamics of the impact of digitalization decisions on the elements of intellectual capital at the stages of the enterprise life cycle is considered.

scholarly journals Evaluation of the Environmental Performance of Residential Building Envelope Components

Energies ◽  
2019 ◽  
Vol 13 (1) ◽  
pp. 174 ◽  
Author(s):  
Serik Tokbolat ◽  
Farnush Nazipov ◽  
Jong R. Kim ◽  
Ferhat Karaca
Keyword(s):  
Life Cycle ◽  
Environmental Performance ◽  
Residential Buildings ◽  
Ghg Emissions ◽  
Building Envelope ◽  
Comfort Level ◽  
Environmental Cost ◽  
Energy Deficit ◽  
Comfort Levels ◽  
The Impact

The role of buildings in the context of addressing the consequences of climate change and the energy deficit is becoming increasingly important due to their share in the overall amount of green house gas (GHG) emissions and rapidly growing domestic energy consumption worldwide. Adherence to a sustainability agenda requires ever-increasing attention to all stages of a building′s life, as such approach allows for the consideration of environmental impacts of a building, from design, through construction stages, until the final phase of a building′s life—demolition. A life cycle assessment (LCA) is one of the most recognized and adopted models for the evaluation of the environmental performance of materials and processes. This paper aims to perform an LCA of four different types of residential buildings in Nur-Sultan, Kazakhstan. The assessment primarily considered embodied energy and GHG emissions as key assessment indicators. Findings suggest that the operational stage contributed to more than half of the GHG emissions in all the cases. The results of the study indicate that there is a dependence between the comfort levels and the impact of the buildings on the environment. The higher the comfort levels, the higher the impacts in terms of the CO2 equivalent. This conclusion is most likely to be related to the fact that the higher the comfort level, the higher the environmental cost of the materials. A similar correlation can be observed in the case of comparing building comfort levels and life-cycle impacts per user. There are fewer occupants per square meter as the comfort level increases. Furthermore, the obtained results suggest potential ways of reducing the overall environmental impact of the building envelope components.

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