Life Cycle Assessment of Different Low-Temperature District Heating Development Scenarios: A Case Study of Municipality in Latvia

Abstract Sustainable heating solutions involving renewable energy sources and low supply/return temperatures for district heating are evolving. Low temperature use in district heating allows reducing the heating operation costs significantly and at the same time holding the sustainability criteria. However, an in-depth study on environmental impacts during the life cycle of low temperature district heating was not conducted until now. Thus, this study aims to find the best development scenarios for development of local low temperature district heating. For this purpose, a methodology adopts life cycle analysis approach that allows assessing the environmental impacts according to a variety of environmental performance criterions. The results of the study showed an improvement in the overall environmental performance towards the transition of a conventional 3rd generation district heating to low temperature concept including the effects of reconstruction and modernization of the boiler house. A set of potential development is proposed. Specifically, the scenario implementing low temperature district heating with solar PV showed the best score for environmental performance. The scenario with implementation of low temperature district heating without solar PV did not show significant improvement in environmental performance under operation conditions of a pilot case study.

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Are district heating systems and renewable energy sources always an environmental win-win solution? A life cycle assessment case study in Tuscany, Italy

Renewable and Sustainable Energy Reviews ◽

10.1016/j.rser.2017.05.231 ◽

2017 ◽

Vol 80 ◽

pp. 408-420 ◽

Cited By ~ 22

Author(s):

Irene Bartolozzi ◽

Francesco Rizzi ◽

Marco Frey

Keyword(s):

Life Cycle Assessment ◽

Renewable Energy ◽

Life Cycle ◽

Renewable Energy Sources ◽

District Heating ◽

Energy Sources ◽

Heating Systems ◽

District Heating Systems

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Life Cycle Assessment of Low Temperature District Heating System in Gulbene Region

Environmental and Climate Technologies ◽

10.2478/rtuect-2020-0073 ◽

2020 ◽

Vol 24 (2) ◽

pp. 285-299

Author(s):

Fabian Diaz ◽

Ieva Pakere ◽

Francesco Romagnoli

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Low Temperature ◽

Environmental Impact ◽

Renewable Energy Sources ◽

District Heating ◽

Heating System ◽

Energy Sources ◽

Hotspot Analysis ◽

District Heating System

AbstractNew district heating system technologies have arisen in the last years to deliver economic and environmental benefits to residential and commercial buildings. The extensive ranges of equipment, energy sources, temperature profile configurations, size of the network, energy demand, and many other intrinsic variables, make it difficult to identify if a determined district heating option is potentially better than another in environmental terms. As for the economic evaluation, there are several tools decision-makers can rely on to assess environmental performance. The main challenge is to provide a holistic point of view for which lifespan and complexity of implementable, new technological systems can be an obstacle. For this reason, in this paper, a Life Cycle Assessment is performed upon a technical evaluation of several district heating configuration options for the Gulbene region in Latvia, where DH systems in most of the assessed parishes are already operating under medium temperature regimes, also known as third-generation district heating. The goal of the study is to understand the environmental impact of moving from the current DH system to a low temperature one. Results show a considerable environmental benefit if low-temperature profiles, combined with the use of renewable energy sources are adopted in the current DH systems. A hotspot analysis is also performed showing the use stage is the one carrying most of the burden across the project’s lifetime, followed by infrastructure construction; also showing that the refurbishment of buildings does not play a major role in the total environmental impact contribution.

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Comparison of Environmental Performance of Single-Family House and Multi-Storey Apartment in Turkey using Life Cycle Assessment

10.21203/rs.3.rs-1027577/v1 ◽

2021 ◽

Author(s):

Sedat Gulcimen ◽

Nigmet Uzal ◽

Tolgahan Varışlı ◽

Ghaith Khidrah

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impacts ◽

Environmental Performance ◽

Renewable Energy Sources ◽

Sustainable Construction ◽

Single Family ◽

Floor Area ◽

Operation Phase ◽

Family House

Abstract In recent years, there has been a significant transition from multi-storey buildings to single-family houses especially due to COVID-19 pandemic. Thus, people prefer to live in single-family houses or detached houses where they have more free space in outside of the house. The aim of this study is to quantify and compare the environmental performance of a single-family house and multi-storey apartment building in Turkey throughout their life cycle with cradle-to-grave approach. Life Cycle Assessment (LCA) based on ISO 14040 and ISO 14044 was used to analyse the environmental impacts of the single-family house and multi-storey apartment buildings. The functional unit was chosen as 1m2 of floor area of a house over their lifespan (50 years). With cradle-to-grave approach of the LCA, the system boundaries for the environmental assessment covers the pre-operation, operation and post-operation stages. The results of this LCA study revealed that majority of the environmental impacts occurs at operation phase for both single-family house and multi-storey apartment. The operation stage has the highest impact with 79% and 78% share of the global warming potential (GWP) for single-family house and the multi-storey apartment, respectively. In comparison of environmental impact results, GWP of the multi-storey apartment per m2 of floor area is 30% lower than single-family house. The environmental impacts of the operation phase have significant importance on the overall environmental performance of both single-family house and multi-storey apartment. The results showed that electricity consumption and steel usage are the main contributors of the environmental impacts coming from the operation and pre-operation phases, respectively. To pave the way to a sustainable future, the building industry must strive to use of renewable energy sources and sustainable construction materials in order to reduce their environmental impacts with a sustainable approach.

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Life cycle-based evaluation of environmental impacts and external costs of treated wastewater reuse for irrigation: A case study in southern Italy

Journal of Cleaner Production ◽

10.1016/j.jclepro.2021.126142 ◽

2021 ◽

Vol 293 ◽

pp. 126142

Author(s):

Kledja Canaj ◽

Andi Mehmeti ◽

Domenico Morrone ◽

Pierluigi Toma ◽

Mladen Todorović

Keyword(s):

Life Cycle ◽

Environmental Impacts ◽

Southern Italy ◽

Wastewater Reuse ◽

Treated Wastewater ◽

External Costs ◽

Treated Wastewater Reuse

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Modelling Sustainable Industrial Symbiosis

Energies ◽

10.3390/en14041172 ◽

2021 ◽

Vol 14 (4) ◽

pp. 1172

Author(s):

Hafiz Haq ◽

Petri Välisuo ◽

Seppo Niemi

Keyword(s):

Life Cycle ◽

Waste Management ◽

Environmental Performance ◽

Life Cycle Cost ◽

Economic Assessment ◽

Environmental Benefits ◽

Industrial Symbiosis ◽

Comprehensive Model ◽

Network Connections

Industrial symbiosis networks conventionally provide economic and environmental benefits to participating industries. However, most studies have failed to quantify waste management solutions and identify network connections in addition to methodological variation of assessments. This study provides a comprehensive model to conduct sustainable study of industrial symbiosis, which includes identification of network connections, life cycle assessment of materials, economic assessment, and environmental performance using standard guidelines from the literature. Additionally, a case study of industrial symbiosis network from Sodankylä region of Finland is implemented. Results projected an estimated life cycle cost of €115.20 million. The symbiotic environment would save €6.42 million in waste management cost to the business participants in addition to the projected environmental impact of 0.95 million tonne of CO2, 339.80 tonne of CH4, and 18.20 tonne of N2O. The potential of further cost saving with presented optimal assessment in the current architecture is forecast at €0.63 million every year.

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A heuristic solution and multi-objective optimization model for life-cycle cost analysis of solar PV/GSHP system: A case study of campus residential building in Korea

Sustainable Energy Technologies and Assessments ◽

10.1016/j.seta.2021.101490 ◽

2021 ◽

Vol 47 ◽

pp. 101490

Author(s):

Minjeong Sim ◽

Dongjun Suh

Keyword(s):

Life Cycle ◽

Cost Analysis ◽

Life Cycle Cost ◽

Residential Building ◽

Life Cycle Cost Analysis ◽

Solar Pv ◽

Multi Objective Optimization ◽

Heuristic Solution ◽

System A

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Life-Cycle Assessment of a Rural Terraced House: A Struggle with Sustainability of Building Renovations

Energies ◽

10.3390/en14092472 ◽

2021 ◽

Vol 14 (9) ◽

pp. 2472

Author(s):

Karel Struhala ◽

Milan Ostrý

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impacts ◽

Energy Sources ◽

Construction Sector ◽

Building Stock ◽

Existing Building ◽

New Construction ◽

Consumption Energy

Contemporary research stresses the need to reduce mankind’s environmental impacts and achieve sustainability. One of the keys to this is the construction sector. New buildings have to comply with strict limits regarding resource consumption (energy, water use, etc.). However, they make up only a fraction of the existing building stock. Renovations of existing buildings are therefore essential for the reduction of the environmental impacts in the construction sector. This paper illustrates the situation using a case study of a rural terraced house in a village near Brno, Czech Republic. It compares the life-cycle assessment (LCA) of the original house and its proposed renovation as well as demolition followed by new construction. The LCA covers both the initial embodied environmental impacts (EEIs) and the 60-year operation of the house with several variants of energy sources. The results show that the proposed renovation would reduce overall environmental impacts (OEIs) of the house by up to 90% and the demolition and new construction by up to 93% depending on the selected energy sources. As such, the results confirm the importance of renovations and the installation of environmentally-friendly energy sources for achieving sustainability in the construction sector. They also show the desirability of the replacement of inefficient old buildings by new construction in specific cases.

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Examining the life-cycle environmental impacts of desalination: A case study in the State of Qatar

Desalination ◽

10.1016/j.desal.2018.11.017 ◽

2019 ◽

Vol 452 ◽

pp. 238-246 ◽

Cited By ~ 19

Author(s):

Mehzabeen Mannan ◽

Mohamed Alhaj ◽

Abdel Nasser Mabrouk ◽

Sami G. Al-Ghamdi

Keyword(s):

Life Cycle ◽

Environmental Impacts ◽

The State

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From Buildings’ End of Life to Aggregate Recycling under a Circular Economic Perspective: A Comparative Life Cycle Assessment Case Study

Sustainability ◽

10.3390/su13179625 ◽

2021 ◽

Vol 13 (17) ◽

pp. 9625

Author(s):

Ambroise Lachat ◽

Konstantinos Mantalovas ◽

Tiffany Desbois ◽

Oumaya Yazoghli-Marzouk ◽

Anne-Sophie Colas ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

End Of Life ◽

Environmental Impacts ◽

Open Loop ◽

Decision Makers ◽

Construction And Demolition Waste ◽

Recycled Aggregates ◽

Demolition Waste

The demolition of buildings, apart from being energy intensive and disruptive, inevitably produces construction and demolition waste (C&Dw). Unfortunately, even today, the majority of this waste ends up underexploited and not considered as valuable resources to be re-circulated into a closed/open loop process under the umbrella of circular economy (CE). Considering the amount of virgin aggregates needed in civil engineering applications, C&Dw can act as sustainable catalyst towards the preservation of natural resources and the shift towards a CE. This study completes current research by presenting a life cycle inventory compilation and life cycle assessment case study of two buildings in France. The quantification of the end-of-life environmental impacts of the two buildings and subsequently the environmental impacts of recycled aggregates production from C&Dw was realized using the framework of life cycle assessment (LCA). The results indicate that the transport of waste, its treatment, and especially asbestos’ treatment are the most impactful phases. For example, in the case study of the first building, transport and treatment of waste reached 35% of the total impact for global warming. Careful, proactive, and strategic treatment, geolocation, and transport planning is recommended for the involved stakeholders and decision makers in order to ensure minimal sustainability implications during the implementation of CE approaches for C&Dw.

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