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Träfflista för sökning "WFRF:(Petersen J.) ;lar1:(ri)"

Sökning: WFRF:(Petersen J.) > RISE

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1.
  • Kaiser, M., et al. (författare)
  • VEDLIoT: Very Efficient Deep Learning in IoT
  • 2022
  • Ingår i: Proceedings of the 2022 Design, Automation and Test in Europe Conference and Exhibition, DATE 2022. - : IEEE. - 9783981926361
  • Konferensbidrag (refereegranskat)abstract
    • The VEDLIoT project targets the development of energy-efficient Deep Learning for distributed AIoT applications. A holistic approach is used to optimize algorithms while also dealing with safety and security challenges. The approach is based on a modular and scalable cognitive IoT hardware platform. Using modular microserver technology enables the user to configure the hardware to satisfy a wide range of applications. VEDLIoT offers a complete design flow for Next-Generation IoT devices required for collaboratively solving complex Deep Learning applications across distributed systems. The methods are tested on various use-cases ranging from Smart Home to Automotive and Industrial IoT appliances. VEDLIoT is an H2020 EU project which started in November 2020. It is currently in an intermediate stage with the first results available.
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2.
  • Petersen, S. O., et al. (författare)
  • In-vitro method and model to estimate methane emissions from liquid manure management on pig and dairy farms in four countries
  • 2024
  • Ingår i: Journal of Environmental Management. - : Academic Press. - 0301-4797 .- 1095-8630. ; 353
  • Tidskriftsartikel (refereegranskat)abstract
    • Methane (CH4) emissions from manure management on livestock farms are a key source of greenhouse gas emissions in some regions and for some production systems, and the opportunities for mitigation may be significant if emissions can be adequately documented. We investigated a method for estimating CH4 emissions from liquid manure (slurry) that is based on anaerobic incubation of slurry collected from commercial farms. Methane production rates were used to derive a parameter of the Arrhenius temperature response function, lnA', representing the CH4 production potential of the slurry at the time of sampling. Results were used for parameterization of an empirical model to estimate annual emissions with daily time steps, where CH4 emissions from individual sources (barns, outside storage tanks) can be calculated separately. A monitoring program was conducted in four countries, i.e., Denmark, Sweden, Germany and the Netherlands, during a 12-month period where slurry was sampled to represent barn and outside storage on finishing pig and dairy farms. Across the four countries, lnA' was higher in pig slurry compared to cattle slurry (p < 0.01), and higher in slurry from barns compared to outside storage (p < 0.01). In a separate evaluation of the incubation method, in-vitro CH4 production rates were comparable with in-situ emissions. The results indicate that lnA' in barns increases with slurry age, probably due to growth or adaptation of the methanogenic microbial community. Using lnA' values determined experimentally, empirical models with daily time steps were constructed for finishing pig and dairy farms and used for scenario analyses. Annual emissions from pig slurry were predicted to be 2.5 times higher than those from cattle slurry. Changing the frequency of slurry export from the barn on the model pig farm from 40 to 7 d intervals reduced total annual CH4 emissions by 46 %; this effect would be much less on cattle farms with natural ventilation. In a scenario with cattle slurry, the empirical model was compared with the current IPCC methodology. The seasonal dynamics were less pronounced, and annual CH4 emissions were lower than with the current methodology, which calls for further investigations. Country-specific models for individual animal categories and point sources could be a tool for assessing CH4 emissions and mitigation potentials at farm level. 
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4.
  • Melkunaite, Laura (författare)
  • IMPROVER Deliverable 1.1 International Survey
  • 2016
  • Rapport (övrigt vetenskapligt/konstnärligt)abstract
    • In recent years, the concept of resilience started to dominate strategic, operational as well as political domains of modern societies. Living in highly interconnected environment, where layers of infrastructures, people and economic interests interact creating both opportunities and vulnerabilities, different countries around the world turned towards resilience practices to reduce vulnerability of their critical infrastructures and societies. However, how can one implement resilience concepts without a comprehensive understanding of the concept itself? Focusing on the concept and practice of critical infrastructure resilience, this report provides a comprehensive overview of the existing scientific literature regarding the concept of resilience in general. It discusses the development of the concept of resilience and its application in societal, economic, ecological, organisational and critical infrastructure domains. The report provides an extensive discussion on the definition of resilience concepts, as well as information on scientific endeavours to implement and measure concepts of resilience. The report also contains detailed information on the definitions and implementation of the concepts of resilience in different continents, namely Europe, Africa, Asia, Oceania, North America and South America. Focusing on the concept of critical infrastructure resilience, it provides an overview of the existing official concepts of resilience, implementation tools, and general practices aimed at increasing organisational, societal, economic and technical resilience in different countries. To collect all the information, the IMPROVER consortium performed an extensive literature review on the use of resilience concepts. We also held a workshop with the associate partners, and conducted a set of personal interviews with critical infrastructure operators and resilience experts around the Europe. While conducting a number of case studies in different continents, we analysed existing region and state-level documents, and reports.
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5.
  • Sommer, S.G., et al. (författare)
  • Region-specific assessment of greenhouse gas mitigation with different manure management strategies in four agroecological zones
  • 2009
  • Ingår i: Global Change Biology. - : Wiley. - 1354-1013 .- 1365-2486. ; 15:12, s. 2825-2837
  • Tidskriftsartikel (refereegranskat)abstract
    • Livestock farming systems are major sources of trace gases contributing to emissions of the greenhouse gases (GHG) nitrous oxide (N2O) and methane (CH4), i.e. N2O accounts for 10% and CH4 for 30% of the anthropogenic contributions to net global warming. This paper presents scenario assessments of whole-system effects of technologies for reducing GHG emissions from livestock model farms using slurry-based manure management. Changes in housing and storage practice, mechanical separation, and incineration of the solid fraction derived from separation were evaluated in scenarios for Sweden, Denmark, France, and Italy. The results demonstrated that changes in manure management can induce significant changes in CH4 and N2O emissions and carbon sequestration, and that the effect of introducing environmental technologies may vary significantly with live- stock farming practice and interact with climatic conditions. Shortening the in-house manure storage time reduced GHG emissions by 0-40%. The largest GHG reductions of 49 to, in one case, 82% were obtained with a combination of slurry separation and incineration, the latter process contributing to a positive GHG balance of the system by substituting fossil fuels. The amount and composition of volatile solids (VS) and nitrogen pools were main drivers in the calculations performed, and requirements to improve the assessment of VS composition and turnover during storage and in the field were identified. Nevertheless, the results clearly showed that GHG emission estimates will be unrealistic, if the assumed manure management or climatic conditions do not properly represent a given country or region. The results also showed that the mitigation potential of specific manure management strategies and technologies varied depending on current management and climatic conditions. © 2009 Blackwell Publishing Ltd.
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