Using Mutli Criteria Decision Analysis To Develop Sustainability Assessment Tools: Biomass Supply Chains

Perruccio, Deandra Marie

01 January 2015

Energy access remains a significant challenge in nations lacking access to resources and strong infrastructure systems, creating barriers to economic development and to increased standards of living. Small scale biomass gasification energy (BGE) systems have been developed to meet energy needs in rural areas, creating synergies between agricultural and agro-forestry systems through utilization of biomass feedstock for energy generation. The sustainability of such systems requires sophisticated planning and coordination of the biomass supply chain. The goal of this thesis is to investigate and improve structural and process related characteristics of sustainability assessments for small scale bio-energy systems, specifically focusing on establishment and management of biomass supply chains through the development and dissemination of a generic sustainability assessment framework for biomass supply chains of small-scale BGE systems in rural East Africa. Building on a preliminary sustainability assessment framework (Christensen, 2013; Joerg, 2013) this research develops an assessment tool designed to capture sustainability requirements of the biomass supply chain in the ecological, social, and economic spheres through testing on three case studies in rural Uganda. Application and analysis of a preliminary framework on pilot projects in a rural east African context using Multi Criteria Decision Analysis (MCDA) methodologies contributes to development of strategies for energy system analysis and building stakeholder capacity to incorporate social, economic, and environmental considerations. The assessment process is outlined, including scoring, data collection, contextual considerations. Model application is discussed, including the impact of weighting on decision outcomes, uncertainty management, sensitivity analysis, and identification of tradeoffs among criteria. Finally, discussion of tool usefulness verses usability contributes to bridging academic research with practitioner priorities.

Biomass Energy

Energy Systems

Multi Criteria Decision Making

Sustainability Assessments

Sustainability Planning

Agricultural Economics

Environmental Sciences

Harnessing Environmental Justice to Protect Against Land-grabbing in Cameroon

Sama, Semie

January 2017

I am submitting this thesis to the Faculty of Law, the University of Ottawa in fulfillment of the requirements for the Degree of Doctor of Philosophy (Ph.D.) in August 2016. The thesis examined the issue of land-grabbing through an environmental justice lens. The thesis first reviewed the concept of environmental justice and the threats that land-grabbing by powerful transnational corporations pose to subsistence communities in Africa. Additionally, this study investigated the adequacy of international guidelines to regulate against land-grabbing, including the Minimum Human Rights Principles, the Voluntary Guidelines on the Responsible Governance of Tenure, and the Principles for Responsible Agricultural Investments. Using Cameroon as my case study, the study also examined the adequacy of Cameroon’s land tenure rules and environmental impact assessment (EIA) system to protect vulnerable communities against land-grabbing. Drawing on examples from Cameroon, Ethiopia, Ivory Coast, Mozambique, Nigeria, Senegal, Tanzania, and Uganda, this thesis argues that subsistence communities who failed to have their customary land rights formalized or failed to adequately participate in environmental decision-making end up dispossessed of their means of surviving and thriving. There were three key findings: first, international guidelines regulating against global land-grabbing lack the binding force to coerce host states to take the necessary action to enforce the guidelines and, hence promote responsible agricultural investments. Next, the land rights of subsistence Cameroonians are not formally recognized under Cameroon`s land tenure system, making it difficult for vulnerable populations to contest these allocations or receive compensation in the event of expropriation. Thirdly, EIA follow-up in Cameroon is driven entirely by the investor: the EIA system does not encourage a joint follow-up activity initiated by all groups of stakeholders involved in EIA. Without an independent environmental oversight body that can provide expert evaluation and monitor the Cameroon government and (agricultural) corporations, there is no guarantee that proposed mitigation measures will be translated into specific actions by Herakles Farms. Based on the evaluation results, the following recommendations are made to the Cameroon Government to promote environmental justice in communities that are vulnerable to land-grabbing: (1) formalize customary land tenure, (2) promote environmental contracting; (3) encourage sustainability assessments.

Land-grabbing

Herakles Farms

Cameroon

Environmental contracting

Secured customary tenure

Sustainability Assessments

The role of biogas in a more sustainable energy system in Sweden

Dahlgren, Sofia

January 2019

There are numerous problems in the world that need to be dealt with in order to achieve sustainable development. The energy system has significant negative impacts on many of these problems, and there is a need for a transition towards more sustainable energy. Sweden has already started this transition and is using large amounts of renewable energy. However, within the transport sector and the manufacturing sector in particular, large amounts of fossil fuels are still used. Biogas is one alternative that can help solve several sustainability problems and that could be part of a future more sustainable energy system. However, it is not certain what biogas is most suitable to be used for. The aim of this thesis is to investigate how biogas should be used in a future more sustainable energy system, by answering three research questions: 1) In what ways can biogas be used in a more sustainable energy system? 2) How can we assess whether biogas is suitable in a specific context? and 3) What determines whether it is easy or difficult for a user to start using biogas? These questions are explored in a Swedish context using four appended articles, which are based on two collaborative projects using a combination of workshops, literature reviews and interviews. Biogas can be used for heat, electricity or fuel in the manufacturing or transport sector. In Sweden, heat and electricity are mainly of interest for smaller production scales, while production on larger scales will likely be dominated by upgrading mostly to CBG but also to LBG. CBG can be used for less energy-intensive purposes, such as cars or buses, while the growing interest in LBG in Sweden may open up new market segments for biogas which are more energy-intensive, such as heavy trucks or shipping, or in geographical locations that are further away from the site of production. Several sustainability assessment methods exist that can be used to evaluate whether biogas is suitable in a specific context, such as multi-criteria assessments or scenario analyses. These methods can include a number of different aspects that are relevant to biogas use, such as GHG emissions, safety issues, and the vitality of the surrounding region. In order to introduce biogas, six main factors were identified that can make this easier or more difficult: technical maturity, tank volume, distance between the producer and the user, scale of energy use, policies and costs, and strategies of individual organizations. Overall, the rise in LBG production creates new opportunities for biogas use in both geographical and usage areas that did not previously use biogas. There is no simple answer to what biogas should be used for in the future – rather, this depends on the circumstances. It is also possible that the usage areas that are most suitable now for biogas might not be the most suitable areas in the future, depending on developments within, for example, the electricity system and hydrogen. However, CBG and LBG are likely to dominate biogas production in Sweden until then.

Biogas

CBG

LBG

Energy users

Sustainable transitions

Sustainability assessments

Energy Systems

Energisystem

Conceptualizing the Next Generation of Post Occupancy Evaluations

Tripathi, Ishan

19 July 2022

The design and construction of high-performance buildings have emerged as a preferred solution for reducing energy consumption and greenhouse gas emissions. However, sometimes there is a considerable gap between the design performance and the actual performance of the buildings. Post Occupancy Evaluations (POE) provide tools to quantify the performance relative to the occupant's health, well-being, and comfort. POE is getting widely accepted to obtain feedback for various parameters such as water, energy, indoor environmental quality, and occupant comfort. Key Performance Indicators (KPIs) can be derived based on the obtained feedback to determine the performance gaps. POE has evolved to be a robust scientific methodology; however, traditional methods of conducting POE have been proven time-consuming, inconsistent, and inefficient. This research aims to conceptualize the next generation of post occupancy evaluations that leverages cutting-edge technologies such as Building Information Modeling (BIM), Internet of Things based sensors (IoT), Geographic Information Systems (GIS), and digital twins. The key contributions of this research are presented in a series of manuscripts. In the first paper, the gaps in the existing POE were determined by conducting a thorough literature review. The observed gaps were classified in data collection, analysis, and visualization categories. Broader POE definition, spot measurements of parameters, and 2D plans and charts for visualization made the existing POE procedure time-consuming. Using digital twins that combine the geometric and parametric data from BIM models and built-environment data from GIS and sensor measurements were recommended as potential solutions to address the observed gaps. The second paper explored the application of BIM-IoT-GIS integration to conduct POE. Use case scenarios were developed to derive system requirements to host the BIM-IoT-GIS-integrated POE. Four sequential tests were conducted to integrate a BIM model from Revit and sensors' data from Excel with ArcGIS pro that contained the surrounding environment data. Based on lessons learned from the tests, an optimized workflow was recommended that can be used across a variety of projects. The third paper used the BIM-IoT-GIS-integration concept to create a holistic proof of concept for digital-twin-enabled POE. The proof of concept was validated by conducting a digital-twin-based POE on the STTC building on the Red River College campus in Winnipeg. The indoor thermal comfort was visualized within the STTC digital twin developed in ArcGIS Pro. The preliminary energy consumption analysis concluded that the STTC buildings' average energy savings were approximately 70,000 KWH/year. The potential users for digital-twin-enabled POE were presented with a comparison of iv existing POE and digital-twin-based POE over a survey and a focus group discussion. Based on opinion-based feedback, the conclusion can be made that digital twins improve the overall efficiency of POE. The fourth paper recommended the digital-twin-enabled POE procedure for UVic's engineering expansion project. It established the semantics for POE, followed by a digital twin execution plan that can be used for developing a digital twin during each phase (from planning to operations) of the project. Furthermore, the benefits of the digital-twin-enabled POE procedure were demonstrated by comparison with the existing POE procedure relative to the project phases. This study concluded that conducting the POE on the UVic ECS expansion project will enable the researchers to determine the effectiveness of sustainable features by comparing the performance of existing and proposed facilities. In conclusion, BIM-IoT-GIS-integrated digital twins address the limitations of data collection, analysis, and visualization. These digital twins will enable multi-objective analysis and spatial-temporal visualization and provide deeper insights into the way these high-performance buildings function. / Graduate / 2023-05-24

Facilities Management

Post Occupancy Evaluations

Building Performance Evaluations

Digital Twins

Internet of Things (IoT Sensors)

Sustainability Assessments

Geographic Information Systems (GIS)

Building Information Modeling (BIM)