Effect of different frame materials on the primary energy use of a multi storey residential building in a life cycle perspective

2019 ◽  
Vol 185 ◽  
pp. 259-271 ◽  
Author(s):  
Uniben Yao Ayikoe Tettey ◽  
Ambrose Dodoo ◽  
Leif Gustavsson
Keyword(s):  
Life Cycle ◽  
Energy Use ◽  
Residential Building ◽  
Primary Energy ◽  
Life Cycle Perspective

scholarly journals Humidity-Sensitive Demand-Controlled Ventilation Applied to Multi-Unit Residential Building – Performance and Energy Consumption in Dfb Continental Climate

2020 ◽  
Author(s):  
Jerzy Sowa ◽  
Maciej Mijakowski
Keyword(s):  
Energy Consumption ◽  
Energy Use ◽  
Energy Savings ◽  
Residential Buildings ◽  
Ventilation System ◽  
Residential Building ◽  
Primary Energy ◽  
Controlled Ventilation ◽  
Demand Controlled Ventilation ◽  
Continental Climate

A humidity-sensitive demand-controlled ventilation system is known for many years. It has been developed and commonly applied in regions with an oceanic climate. Some attempts were made to introduce this solution in Poland in a much severe continental climate. The article evaluates this system's performance and energy consumption applied in an 8-floor multi-unit residential building, virtual reference building described by the National Energy Conservation Agency NAPE, Poland. The simulations using the computer program CONTAM were performed for the whole hating season for Warsaw's climate. Besides passive stack ventilation that worked as a reference, two versions of humidity-sensitive demand-controlled ventilation were checked. The difference between them lies in applying the additional roof fans that convert the system to hybrid. The study confirmed that the application of demand-controlled ventilation in multi-unit residential buildings in a continental climate with warm summer (Dfb) leads to significant energy savings. However, the efforts to ensure acceptable indoor air quality require hybrid ventilation, which reduces the energy benefits. It is especially visible when primary energy use is analyzed.

Towards a Green Quail Meat Production through Life Cycle Perspective

2015 ◽  
Vol 747 ◽  
pp. 282-285
Author(s):  
Amir Hamzah Sharaai ◽  
Mohd Zulfadhli Mat Zainol ◽  
Khairul Izzuddin bin Muhammad
Keyword(s):  
Life Cycle ◽  
Environmental Impact ◽  
Environmental Impacts ◽  
Energy Use ◽  
Meat Production ◽  
Poultry Production ◽  
Iso 14040 ◽  
Feed Production ◽  
Life Cycle Perspective ◽  
Cradle To Gate

Commercial conventional of poultry production at largest scale in this country show escalation year by year, together with high demand of poultry product in Malaysia market. The aim of this research was to identify environmental impact hotspots in the whole supply chain of quail meat production in Jasin, Melaka. At present, assessment of environmental impact of poultry production in Malaysia is lacking.Therefore, this study was conducted to evaluate the energy use and environmental impacts of quail meat production in Jasin,Melaka through life cycle assessment.A cradle-to-gate assessment including distribution stage was conducted based on the ISO 14040/14044 guidelines.Life cycle inventory data was collected from farmers and available literature. Life cycle impact assessment was conducted toidentify environmental impacts using the available method in theopenLCA software.Life cycle processes related to feed production, electricity and water were identified as the major hotspots for energy and they also showed the most significant contribution in GWP and acidication potential among the environmental impacts categories. Improving efficiency of energy and water consumption will reduce the environmental burden associated with quail meat production.Thus, at the end of this research, it will able to make industry player to understand and take into consideration the solutions in order to promote a green quail meat production.

scholarly journals Estimation of Carbon Footprint of Residential Building in Warm Humid Climate of India through BIM

Energies ◽  
2021 ◽  
Vol 14 (14) ◽  
pp. 4237
Author(s):  
Rosaliya Kurian ◽  
Kishor Sitaram Kulkarni ◽  
Prasanna Venkatesan Ramani ◽  
Chandan Swaroop Meena ◽  
Ashok Kumar ◽  
...  
Keyword(s):  
Life Cycle ◽  
Carbon Emissions ◽  
Energy Use ◽  
Ghg Emissions ◽  
Residential Building ◽  
Civil Infrastructure ◽  
Humid Climate ◽  
Building Information ◽  
Operational Energy ◽  
Building Life Cycle

In recent years Asian Nations showed concern over the Life Cycle Assessment (LCA) of their civil infrastructure. This study presents a contextual investigation of a residential apartment complex in the territory of the southern part of India. The LCA is performed through Building Information Modelling (BIM) software embedded with Environmental Product Declarations (EPDs) of materials utilized in construction, transportation of materials and operational energy use throughout the building lifecycle. The results of the study illustrate that cement is the material that most contributes to carbon emissions among the other materials looked at in this study. The operational stage contributed the highest amount of carbon emissions. This study emphasizes variation in the LCA results based on the selection of a combination of definite software-database combinations and manual-database computations used. For this, three LCA databases were adopted (GaBi database and ecoinvent databases through One Click LCA software), and the ICE database was used for manual calculations. The ICE database showed realistic value comparing the GaBi and ecoinvent databases. The findings of this study are valuable for the policymakers and practitioners to accomplish optimization of Greenhouse Gas (GHG) emissions over the building life cycle.

scholarly journals A two family house built to passive house standard in the north of Sweden: environmental system performance

2017 ◽  
Author(s):  
Jonas Jonasson ◽  
Itai Danielski ◽  
Michelle Svensson ◽  
Morgan Fröling
Keyword(s):  
Energy Efficiency ◽  
Life Cycle Assessment ◽  
Life Cycle ◽  
Building Materials ◽  
Energy Use ◽  
Residential Building ◽  
Building Design ◽  
Energy System ◽  
Northern Sweden ◽  
Passive House

A life cycle assessment (LCA) of a low energy / passive house in northern Sweden, including building materials and energy use is reported. The case study building is semi detached house for two families situated in Östersund (lat. 63°N), Sweden. Each apartment having a floor space of 160 m2 divided on two floors. The building was constructed during 2010 with a design meeting the requirements for Swedish passive houses as defined by the Forum for energy efficiency buildings (FEBY) and the Swedish center for zero energy houses (SCNH). When it comes to more sustainable buildings, energy use in the build environment has been in focus for some time. The life cycle assessment in this study reveals that the building materials can contribute significantly to environmental burdens of a residential building in northern Sweden. Energy efficiency, efficient use of good building materials and issues of appropriate design need to be discussed in the same context to move toward a more sustainable built environment. For energy efficient buildings in a energy system with renewably based energy carriers, building materials might give rise to a significant or even dominating part of the life cycle impact of a building. This give rise to considerations regarding choices of building materials as well as design of buildings to minimize such impact; while not forgetting social aspects impacted by building design.

Life Cycle Perspective for Urban Energy Use and Carbon Emissions: A Case Study of Xiamen, China

2017 ◽  
Vol 5 (1) ◽  
pp. 71-76 ◽  
Author(s):  
Fanxin Meng ◽  
Gengyuan Liu ◽  
Zhifeng Yang ◽  
Yan Hao ◽  
Yan Zhang ◽  
...  
Keyword(s):  
Life Cycle ◽  
Carbon Emissions ◽  
Energy Use ◽  
Urban Energy Use ◽  
Life Cycle Perspective ◽  
Urban Energy

scholarly journals INSULATION EXPEDIENCE OF THE EXTERNAL ENVELOPES OF THE BUILDING IN TERMS OF 2E CRITERIA / PASTATO IŠORINIŲ ATITVARŲ APŠILTINIMO TIKSLINGUMAS 2E RODIKLIŲ POŽIŪRIU

2014 ◽  
Vol 6 (4) ◽  
pp. 407-413
Author(s):  
Mantas Kijevičius ◽  
Kęstutis Valančius
Keyword(s):  
Life Cycle ◽  
Energy Consumption ◽  
Co2 Emissions ◽  
Life Cycle Analysis ◽  
Residential Building ◽  
Primary Energy ◽  
Payback Period ◽  
Primary Energy Consumption ◽  
Structural Elements ◽  
Life Cycle Stages

The paper analyses the insulation expediency of the external envelopes of the building with reference to 2E (energy – primary energy consumption and environmental – CO2 emissions) criteria and presents an overview of thermal insulation and studies on other structural elements based on life cycle analysis. The object of research is a typical residential building. The article determines different insulation materials of external envelopes, primary energy consumption and CO2 emissions by insulating walls from F to B and from B to A ++ class. Graphical interpretation shows primary energy, CO2 and the payback period of 60 years. Also, the paper considers primary energy and CO2 emissions distributed at various life cycle stages. Straipsnyje nagrinėjamas pastato išorinių atitvarų apšiltinimo tikslingumas 2E (energiniu ­– pirminės energijos sąnaudų ir ekologiniu – CO2 – išmetalų) kriterijų požiūriu. Apžvelgti teoriniai darbai, kuriuose statybinės medžiagos nagrinėjamos pirminės energijos ir poveikio aplinkai vertinimo (PAV) požiūriu. Tyrimo objektu pasirinktas gyvenamosios paskirties pastatas. Nagrinėjamos skirtingos išorinių atitvarų termoizoliacinės medžiagos, nustatomi pirminės energijos kiekiai ir CO2 išmetalai apšiltinant atitvaras nuo F iki B ir nuo B iki A++ pastato energinės klasės. Vertinama pagal gyvavimo ciklo analizės metodiką. Pateikiama grafinė interpretacija, rodanti sutaupytos pirminės energijos ir CO2 kiekius per 60 metų laikotarpį, identifikuojamos energetiškai ir ekologiškai priimtiniausios termoizoliacinės medžiagos pastatams apšiltinti.

scholarly journals Toward Energy Savings in Campus Buildings under a Life Cycle Thinking Approach

2020 ◽  
Vol 10 (20) ◽  
pp. 7123
Author(s):  
Ricardo Abejón ◽  
Jara Laso ◽  
Marta Rodrigo ◽  
Israel Ruiz-Salmón ◽  
Mario Mañana ◽  
...  
Keyword(s):  
Life Cycle ◽  
Energy Consumption ◽  
Energy Use ◽  
Energy Savings ◽  
Raw Materials ◽  
Energy Performance ◽  
Primary Energy ◽  
Point Of View ◽  
Life Cycle Thinking ◽  
Building Industry

Recent studies have identified that buildings all over the world are great contributors to energy consumption and greenhouse gas emissions. The relationship between the building industry and environmental pollution is continuously discussed. The building industry includes many phases: extraction of raw materials, manufacturing, construction, use, and demolition. Each phase consumes a large amount of energy, and subsequent emissions are released. The life cycle energy assessment (LCEA) is a simplified version of the life cycle assessment (LCA) that focuses only on the evaluation of energy inputs for different phases of the life cycle. Operational energy is the energy required for day-to-day operation processes of buildings, such as heating, cooling and ventilation systems, lighting, as well as appliances. This use phase accounts for the largest portion of energy consumption of the life cycle of conventional buildings. In addition, energy performance certification of buildings is an obligation under current European legislation, which promotes efficient energy use, so it is necessary to ensure that the energy performance of the building is upgraded to meet minimum requirements. For this purpose, this work proposes the consideration of the energy impacts and material resources used in the operation phase of a building to calculate the contribution of these energy impacts as new variables for the energy performance certification. The application of this new approach to the evaluation of university buildings has been selected as a case study. From a methodological point of view, the approach relied on the energy consumption records obtained from energy and materials audit exercises with the aid of LCA databases. Taking into practice the proposed methodology, the primary energy impact and the related emissions were assessed to simplify the decision-making process for the energy certification of buildings. From the results obtained, it was concluded that the consumption of water and other consumable items (paper) are important from energy and environmental perspectives.

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