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  • 1.
    Casimir, Justin
    et al.
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Engström, Jonas
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Flisberg, Patrik
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Hansson, Erik
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Kihlstedt, Annika
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel. RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Rönnqvist, Mikael
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Skiftning av åkermark för ett effektivare jordbruk2019Rapport (Annet vitenskapelig)
    Abstract [sv]

    Antalet gårdar i Sverige minskar medan deras storlek ökar för att kunna hålla verksamheten konkurrenskraftig på marknaden. En vanlig situation är att gården vill expandera snabbare än det finns tillgänglig mark nära gårdscentrum. Detta leder till att gården får längre avstånd till sin åkermark. Detta extra avstånd har en kostnad, både för gårdens lönsamhet och för miljön.

    En föregående pilotstudie studerade kostnaden för transport av skörd och stallgödsel (spannmål, vall och stallgödsel). Studien visade att kostnader för transporter blir minst halverad om man byter till mark som ligger närmare gården. Denna studie studerade endast fyra gårdar, och inkluderade inte sociala aspekter.

    Detta fortsättningsprojekt syftar till att få en bättre insikt i de tekniska (geografiska) och även sociala faktorer kopplade till markbyte. Den tekniska delen av projektet innebär utveckling av ett verktyg för att 1) räkna avstånd mellan gårdscentrum och fält i hela Sverige, 2) identifiera bästa matchningar för markbyte mellan gårdar, och därmed minimera avstånd mellan gårdscentrum och fält, och 3) uppskatta potentiella besparingar av drivmedel och kostnader kopplade till markbyte.

    Våra resultat visar att verktyget ger ett stabilt underlag som beslutstöd. Däremot behövs mer studier för att komma överens om det bästa sättet att implementera verktyget i Sverige, särskilt angående ägarskap, affärsmodell och utveckling av nya funktioner. Den teoretiska potentialen för markbyte mellan två gårdar är uppskattad till 12,4 %.

    Den sociala delen av projektet undersökte lantbrukares attityder till markbyte. I semi-strukturerade intervjuer med lantbrukare, och seminarium med andra intressenter, undersökte vi hinder, förutsättningar, samt potential för implementering av verktyget. Våra resultat visar att verktyget var positivt mottaget men att det finns fler faktorer att ta hänsyn till t.ex. jordart, odlingsmetod och förtroende.

    Fulltekst (pdf)
    fulltext
  • 2.
    Casimir, Justin
    et al.
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Gunnarsson, Carina
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Farmers current practices, and their opinion on supplying straw for production of second-generation biofuels in Sweden2020Rapport (Annet vitenskapelig)
    Abstract [en]

    This report presents results from the EU project AGROinLOG (Grant Agreement 727921) and especially focuses on the results from a survey looking at the current practices with straw use in Sweden as well as the farmer’s opinion on supplying straw for the production of second-generation biofuel. The survey was developed as a collaboration between LRF (Federation of Swedish farmers) RISE and Lantmännen.The reader can first read about the context within which the survey was developed and analysed. The questions and the methodology are then presented. The main part of the report presents the questionnaire results before drawing conclusions in line with the project’s objectives.The survey shows that about 60% of the straw from farmers participating in the survey, remains in the field while 40% is harvested mostly for animal production. The county of Skåne, the “ÖSÖ” region (Östergötland, Södermanland, and Örebro counties), the region including Uppsala, Stockholm and Västmanland counties, and the county of Västra Götaland have the largest potential for collection of straw for industrial processes in Sweden. However, farmers from these regions are the most concerned about the decrease of soil quality due to straw removal. The current common practices for straw handling in Sweden, including baling, collection, transport, storage and sale, are highlighted.Some interesting conclusions are drawn concerning the logistics needed for the handling of straw for the biobased industry. Moreover, the answers from the survey give some insights concerning a potential “straw contract” between Lantmännen and the farmers. The report also highlights the aspects to be further researched.More information concerning the Swedish contribution to the AGROinLOG project can be found in the public report AGROinLOG (2020a).

    Fulltekst (pdf)
    fulltext
  • 3.
    Casimir, Justin
    et al.
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Jamieson, Max
    HIR Skåne, Sweden.
    Elmquist, Helena
    Odling i Balans, Sweden.
    Persson, Ingvar
    LRF konsult, Sweden.
    Bergman, Niklas
    LRF, Sweden.
    Färdplan för effektivisering och egenförsörjning av energi i lantbruket2018Rapport (Annet vitenskapelig)
    Abstract [en]

    The greenhouse gas emissions connected to energy use in the Swedish agriculture (excluding greenhouse cultures) represents 0,6 Mton CO2eq which is about 4% of the agriculture greenhouse gas emission in Sweden (Jordbruksverket, 2018). The “All Party Committee for environmental objectives” (miljömålsberedning) suggested that by 2045 Sweden should has a zero-net-emission of greenhouse gases. The parliament (Riksdag) adopted this political framework for climate issues which entered into force the 1st of January 2018. To reach this ambitious goal, all sectors including agriculture must undertake measures.

    The project developed a roadmap in the form of a list of measures leading the Swedish agriculture towards a sustainable status in line with the Swedish Environmental Goals. This roadmap was developed using a backcasting methodology. It means that first the goals were set and then the measures needed to move from the present status to the goals were developed. Based on political goals as well sustainability principles, a vision of the future for Swedish agriculture has been developed. The vision is:

    In the future, agriculture is energy effective, independent from fossil resources, deliver energy to the society and is profitable. Agricultural enterprises have access to knowledge, competences, and decision support. Collaboration within the agricultural sector as well as with other sectors is comprehensive for energy.

    To analyse the current situation, four studies were implemented within the project: (i) a survey of farmers view and interest, (ii) a survey of agrarian education, (iii) identification of bottlenecks with research and development (R&D), and (iv) an analysis of how relevant tools for energy are communicated. A selection of observation positive for the energy and climate questions are as follow: more agricultural enterprises have solar cells today than three years ago, 25% of the respondents have attend an eco-driving course, large farms have done most energy surveys and, investment in fossil free energy is seen as positive for both enterprise and the environment. Negative observations are that farmers miss a long-term regulation for energy production and feel a lack of knowledge about energy efficiency and production. Only 8% of the respondents uses high blends biofuels. In addition, respondents have expressed a lack of collaboration and inquire for a joint communication for R&D results concerning energy efficiency and production. In the agrarian education the interest in energy efficiency and production is low.

    A range of measures contributing to reach the vision were suggested. These measures vary between different communication strategies, improved advisory services and need for regulatory simplification to minimize the hassle with permissions and administration. Simple and accessible key figures as well as better statistics would make it easier to follow the different energy flows. It is up to decision-making authorities, advisory organisations, institutions of higher education, agricultural organisations and agriculture themselves to implement these measures.

    The greenhouse gas emissions connected to energy use in the Swedish agriculture (excluding greenhouse cultures) represents 0,6 Mton CO2eq which is about 4% of the agriculture greenhouse gas emission in Sweden (Jordbruksverket, 2018). The “All Party Committee for environmental objectives” (miljömålsberedning) suggested that by 2045 Sweden should has a zero-net-emission of greenhouse gases. The parliament (Riksdag) adopted this political framework for climate issues which entered into force the 1st of January 2018. To reach this ambitious goal, all sectors including agriculture must undertake measures.

    The project developed a roadmap in the form of a list of measures leading the Swedish agriculture towards a sustainable status in line with the Swedish Environmental Goals. This roadmap was developed using a backcasting methodology. It means that first the goals were set and then the measures needed to move from the present status to the goals were developed. Based on political goals as well sustainability principles, a vision of the future for Swedish agriculture has been developed. The vision is:

    In the future, agriculture is energy effective, independent from fossil resources, deliver energy to the society and is profitable. Agricultural enterprises have access to knowledge, competences, and decision support. Collaboration within the agricultural sector as well as with other sectors is comprehensive for energy.

    To analyse the current situation, four studies were implemented within the project: (i) a survey of farmers view and interest, (ii) a survey of agrarian education, (iii) identification of bottlenecks with research and development (R&D), and (iv) an analysis of how relevant tools for energy are communicated. A selection of observation positive for the energy and climate questions are as follow: more agricultural enterprises have solar cells today than three years ago, 25% of the respondents have attend an eco-driving course, large farms have done most energy surveys and, investment in fossil free energy is seen as positive for both enterprise and the environment. Negative observations are that farmers miss a long-term regulation for energy production and feel a lack of knowledge about energy efficiency and production. Only 8% of the respondents uses high blends biofuels. In addition, respondents have expressed a lack of collaboration and inquire for a joint communication for R&D results concerning energy efficiency and production. In the agrarian education the interest in energy efficiency and production is low.

    A range of measures contributing to reach the vision were suggested. These measures vary between different communication strategies, improved advisory services and need for regulatory simplification to minimize the hassle with permissions and administration. Simple and accessible key figures as well as better statistics would make it easier to follow the different energy flows. It is up to decision-making authorities, advisory organisations, institutions of higher education, agricultural organisations and agriculture themselves to implement these measures.

    Fulltekst (pdf)
    fulltext
  • 4.
    Casimir, Justin
    et al.
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Lund, Johanna
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    A roadmap to develop Integrated Biomass Logistic Centres in Skåne Sweden - Case study grain milling industry2020Rapport (Annet vitenskapelig)
    Abstract [en]

    This report presents the results from the EU project AGROinLOG (Grant Agreement 727921) and focuses on the development of a roadmap for the grain processing industry to develop Integrated Biomass Logistic Centres in Skåne. More information concerning the Swedish contribution can be found in the public report AGROinLOG (2020a).The Swedish partners of the AGROinLOG project have been interacting with different stakeholders from the grain processing industry in Skåne (South of Sweden) to investigate the existing hinders and drivers for the development of Integrated Biomass Logistic Centres (IBLC) in the region. This report focuses in particular into the milling industry in Skåne in regard to its potential, the utilization of the by-product bran and limitation for the implementation of IBLC. The objective of this reports is to propose a roadmap for the transformation of the current milling sector into an IBLC.The reader will first get a brief introduction to the IBLC concept and a detailed status of the cereal production and milling industry in Skåne. The process for data collection included many interactions with the industry and other relevant stakeholders. The results are then presented.The roadmap uses a backcasting approach starting with the development of a desired sustainable vision of the future. The vision foreseen that mills have developed into IBLCs and collaborate with many actors to produce a wider range of products and add values to other by-products than the mills’ own by-products. This new activity is profitable for the mills but also for other processing industries. The products developed are highly demanded by the consumers.The authors then mapped the current situation looking in particular at hinders, potential conflict of interest, and policy support. The hinders could be clustered into six categories: supply, communication, regulation, economy, market, and logistic. The conflict of interest for the valorisation of bran is low as it is used for human consumption to a low extent. It could however conflict with the animal feeding industry. Different kind of supports are needed at the different stage of the innovation development. Skåne, and Sweden in general have good access to supporting schemes. More technical data concerning the current status of the milling sector is included in the background chapter.Finally, concrete measures for moving from the current situation to the vision are discussed. The most important measure to implement would be to develop a market for the new bio-based products. To support this, a number of measures should be implemented in a joint effort. These measures include technical development, collaboration, and communication. Moreover, sustainability must be a red thread in this transformation, and new legislation should provide a supportive framework.

    Fulltekst (pdf)
    fulltext
  • 5.
    Casimir, Justin
    et al.
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Sindhöj, Erik
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Possibilities and bottlenecks for implementing slurry acidification techniques in Russian and Belarus2019Rapport (Fagfellevurdert)
    Abstract [en]

    This report: summarizes expert judgements on how slurry acidification technologies (SATs) could be implemented in Belarus and North West Russia. Special focus on bottlenecks for implementing SATs with existing manure management systems was considered.

    In Belarus and North West Russia, a smaller proportion of manure is handled as slurry compared to EU Baltic Sea countries, but this might be due to the high poultry production in Russia since most poultry manure is solid. None the less, SATs are currently only available for slurry manure handling systems and not for solid or semi-solid manure.

    Regarding the current systems used in Russia and Belarus some SATs may be easier to implement than others. For instance, due to health issues, farms do not store manure under animal houses. Further studies related to the legislation are needed to reveal if this factor is a potential bottleneck for the in-house SAT. In-storage SATs, both long term and just before spreading should be possible to implement based on the current handling practices, even in Belarus where lagoons are very commons to store slurry. In-field SATs also have a good potential for implementation, but it is worth mentioning that machine contractors in agriculture are nearly non-existent in these two countries and equipment is usually owned by each farm.

    More information concerning economics and environmental impacts as well as safety issues related to acid handling are still needed to fully understand the implementation potential of SATs in Belarus and Russia.

    Fulltekst (pdf)
    fulltext
  • 6.
    Casimir, Justin
    et al.
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Östlund, Johanna
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Holtz, Emma
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Hondo, Haris
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Eliasson, Lovisa
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Moore, Susanna
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Småskalighet som ett medel för att bana väg för framtidens livsmedel?2018Rapport (Annet vitenskapelig)
    Abstract [en]

    The food value chain system in Sweden is well established making it hard for small companies to develop new products and even harder to create new food supply systems Obstacles could lay at the beginning of the chain (food production or processing), at the end (marketing, consumer) or could even be related to the legislative regulation framing the food supply chain. Smaller actors often lack resources and networks to develop their sector. However, their degree of creativity, innovativeness, and engagement is high, and their energy is needed in the development of new sustainable food value chains.

    The aim of this project was to develop and apply a methodology for evaluating food value chains, focusing on profitable small-scale production systems in Sweden that show potential for fast development of new products that quickly reach the market. The work also included identifying Swedish raw food materials with growth potential and to identify how they could come into greater demand. Ten food value chains with high development potential in Sweden and for export were mapped and the main bottlenecks briefly described. Three food chains where selected based on a potential-difficulty-benefit matrix. The three selected food value chains were: (i) Hops, (ii) Swedish forest berries, and (iii) Land-based fish farming. These three food value chains where further studied looking at the whole value chain, from production to end consumer. Through literature review and contacts with relevant stakeholders (telephone interview, face-to-face interview, or workshop) the bottlenecks were clarified and potential solutions for increased demand where identified.

    Swedish hops production is carried out by passionate and engaged smaller actors, mostly on a hobby level, and the hops is used as an ingredient for beer. Germany and the USA produce about 75% of the worldwide production These hops varieties are not adapted to the Swedish climate and therefore result in a low volume and poor quality. However, domestic varieties have been grown in the past giving better yield under Swedish climate conditions. More work is needed to characterize the quality of Swedish hops. At the present time, knowledge about the characteristics of Swedish hops is low, explaining the lack of interest from brewers. In Sweden most hops are harvested by hand, making it nearly impossible to be profitable on the market. The mechanization of the harvesting step is necessary to move Swedish hops from a hobby to a commercial activity. No solutions are available on the Swedish market, RISE together with SLU is looking to develop a hops harvester fulfilling Swedish and EU regulations and adapted to small scale cultivation. At the end of the value chain, innovative products could increase the need for Swedish hops, for example by developing beers brewed with fresh hops. Moreover, hops have antiseptic characteristics and could potentially be used in other food products than beer.

    Only about four percent of the berries that are produced by the Swedish forests every year are picked. The largest volumes picked are for bilberry (Swedish: blåbär), lingonberry, and cloudberry and most of them are washed and frozen in Sweden. Processing of berries, however, has to a large extent moved out of the country while the products produced for the Swedish market are quite traditional, low-processed foods such as jams, juices and dessert soups. The majority of the Swedish berries mainly bilberries due to their nutritional content are exported and are further processed into value added powders or extracts in Asia and Europe. In Sweden this kind of value chain is under developed largely due to knowledge barriers and to the currently very traditional market. However, there is a great consumer interest in berries and they have a perceived healthiness also in Sweden. Consumers are also increasingly aware of the origin of berries used as ingredients in products such as jams, purees and juice, as well as in health food products. To fill this gap between consumer interest/demand and raw materials available new businesses can be developed. To facilitate such development there is a need for knowledge generation and transfer along the whole value chain (picking, processing, product development and consumer studies), which can be generated by starting up new innovation and research projects. It is also of importance to facilitate networking, for example in the ‘berry network’ (coordinated by RISE), as the creation of a new value chain will require different businesses to cooperate. Also, product development projects will need support for testing, pilot production, and possibly in finding investment funding for new equipment.

    Land-based fish farming is small in comparison to traditional fish farming in Sweden, but several actors see a great potential in this system which has a lower impact on the environment compared to conventional fish farms. For instance, the Swedish farmer federation (LRF) has invested in a land-based fish farm recently. As in other EU-countries, the number of active farms in Sweden is decreasing and some see the potential to recycle unused animal stables into fish farms. A major bottleneck for land-based fish farming is current legislation as it is based on conventional fish farming and therefore does not consider the environmental benefits of land-based systems. Knowledge should be spread to relevant authorities and policy makers to open a dialog and facilitate the development of a relevant regulatory framework. Regarding the production phase, access to sustainably produced feed and technical competence are lacking. Moreover, as the technology is costly learning through trial and error would not be recommended. A testbed dedicated to land-based fish farming could support companies who wish to try modifications to their system. Furthermore, smaller producers have difficulties in finding processing solutions for their products; e.g. slaughterhouses and conditioning. Two potential solutions would be to develop a land-based fish farm cooperative and/or mobile systems that could take care of smaller productions. Finally, the competition on the market is tough as land-based fishes are competing with large-scale conventional fish farms from Norway and Asia. To overcome this bottleneck, the sector could develop its own certification as well as increasing the consumers awareness and knowledge.

    Some conclusions could be applied to all the studied food chains. For instance, each value chain can be seen as a puzzle with many pieces. In order to develop new food value chains many separate pieces need to fall into place. Therefore, it is necessary to increase collaboration between stakeholders but also to have a stakeholder driven coordination of this collaboration. The stakeholders within the developing value chains often do not have all the resources to carry out this task, especially if they are small businesses. The development of cooperatives also seems to be a solution to overcome bottlenecks in the studied food chains. Likewise, logistics in the developing value chains have a great margin for improvement. Furthermore, this project focused on value chains where food commodities are the end product but investigating the potential for non-food uses would also be of interest.

    The method used in this project can be replicated to other value chains with potential of development. It would help the users to get a holistic view of the current bottlenecks and facilitate contact between stakeholders. The list of bottlenecks can be followed up and used as an indicator to evaluate if the value chain in moving forward.

    Fulltekst (pdf)
    fulltext
  • 7.
    Gunnarsson, Carina
    et al.
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Lund, J
    RISE Research Institutes of Sweden.
    Casimir, Justin
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Myrbeck, Åsa
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Sustainable straw potential in Sweden – a case study to supply straw for ethanol production2020Inngår i: European Biomass Conference and Exhibition Proceedings2020, Pages 86-8828th European Biomass Conference and Exhibition, e-EUBCE 2020; Virtual, Online; ; 6 July 2020 through 9 July 2020, ETA-Florence Renewable Energies , 2020, s. 86-88Konferansepaper (Fagfellevurdert)
    Abstract [en]

    When agriculture is to supply a growing bioeconomy with biomass, straw has been identified as one of residues with the largest potential. As removal of straw from fields will have a negative impact on soil humus development compared with straw incorporation it is important to make sure that a system including straw removal does not negatively effect the long-term soil fertility. As part of the EU-financed project AGROinLOG a Swedish demonstration case was made to supply 80,000 tonnes of winter wheat straw annually to 2nd generation bioethanol production. The straw removal from the case study area of Norrköping and surrounding counties, in the south-eastern part of Sweden, was evaluated from a soil fertility aspect using a model that estimates the sustainability of a cropping system regarding soil fertility and yield levels based on humus content, climate and soil type. The assessment revealed the possibility to remove 230,000 tonnes of winter wheat straw from the surrounding counties of Norrköping without reaching the humus limit. The margin to 80,000 tonnes is large and collecting this amount of winter wheat straw annually may well be possible. 

  • 8.
    Rönnqvist, Mikael
    et al.
    Université Laval, Canada.
    Frisk, Mikael
    Creative Optimization - Sweden AB, Sweden.
    Flisberg, Patrik
    Creative Optimization - Sweden AB, Sweden.
    Casimir, Justin
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Engström, Jonas
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Hansson, Erik
    Ludwig & Co AB, Sweden.
    Kihlstedt, Annika
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Collaboration and optimization in farmland exchanges2023Inngår i: International Transactions in Operational Research, ISSN 0969-6016, E-ISSN 1475-3995, Vol. 30, nr 4, s. 1591-1616Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    To keep businesses competitive in world markets, the number of farms in most countries is decreasing while farm size is increasing, and parcels making up the farm area are extremely fragmented. It is common for farms to expand faster than available arable land near the farm center, leading to longer distances between the farm center and field areas. Consequently, logistic costs increase and affect the farm's profitability and the environment. Moreover, there is often substantial overlap between different farms, which implies that it is possible for farmers to collaborate with each other. We developed and proposed three optimization models to describe different levels of collaboration and sharing restrictions. Many practical considerations need to be weighed, such as the soil type and crops used. We collected detailed information on farms, parcels, and cost drivers in seven large instances for our case study in Sweden. One instance had 1431 farms and 32,091 parcels with 96 crop types. The resulting optimization models were very large; special pre-processing and optimization techniques were developed for their solutions. The theoretical potential for collaboration in logistic cost reduction was very large, ranging from approximately 10% to 50% depending on the form of the collaboration. Because a large part of costs comes from less use of diesel for transport resources, the reduction in cost is directly related to a reduction in CO2 emissions. © 2022 The Authors. International Transactions in Operational Research

  • 9.
    Sindhöj, Erik
    et al.
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Tamm, Kalvi
    Estonian Crop Research Institute, Estonia.
    Bryukhanov, Aleksandr
    Institute for Engineering and Environmental Problems in Agricultural Production, Russia.
    Casimir, Justin
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Jordbruk och livsmedel.
    Uvarov, Roman
    Institute for Engineering and Environmental Problems in Agricultural Production, Russia.
    Oblomkova, Natalia
    Institute for Engineering and Environmental Problems in Agricultural Production, Russia.
    Slurry acidification as a tool to reduce ammonia emissions2019Inngår i: Agricultural Machinery and Technologies, ISSN 2618-6748, Vol. 13, nr 5, s. 4-10Artikkel i tidsskrift (Fagfellevurdert)
    Fulltekst (pdf)
    Slurry acidification techniques to reduce NH3 emissions
  • 10.
    Rodhe, Lena ()
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Casimir, Justin ()
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Sindhöj, Erik ()
    RISE - Research Institutes of Sweden (2017-2019), Biovetenskap och material, Jordbruk och livsmedel.
    Possibilities and bottlenecks for implementing slurry acidification techniques in the Baltic Sea Region2017Rapport (Annet vitenskapelig)
    Abstract [en]

    This report: 1) describes those slurry acidification techniques (SATs) that are commercially available today in Denmark including In-house, In-storage and In-field SATs, and 2) summarizes expert judgements on how these SATs could be implemented in each country in the Baltic Sea Region (BSR). Special focus on bottlenecks for implementing SATs with existing manure management systems was considered.

    Data from Eurostat and national statistics show that a large portion of manure in each country is handled as slurry and all the national experts considered implementing SATs as relevant for their respective countries.

    The In-field SATs were considered the most applicable SATs for implementation in the BSR. They are flexible and mobile and in general have the lowest acid consumption. If investments in In-field SATs are done by agricultural contractors or farmer cooperation’s, then acidification techniques will also be available to smaller farms.

    The In-storage SATs that acidify slurry just before spreading were ranked second of interest in most countries. Mobile equipment is ideal for contractors and co-operations and therefore each unit could potentially treat a lot of slurry. Another advantage is that once the slurry is acidified, any available spreading equipment can be used. The major drawback is that extra storage capacity is needed during acidification so the foaming will not overflow. Most farmers do not have this extra storage capacity, so if storages are full, some slurry would have to be spread untreated before the rest of the tank could be acidified.

    The stationary In-house SAT was thought to be of less interest in most countries, since it is perhaps the hardest SAT to implement into existing manure handling systems. They are best suited for new animal houses so the SAT can be integrated into the manure handling system from the start. Installing them in existing animal houses would, in many cases, probably require re-construction of slurry channels. Also, in some countries like Estonia and Sweden, flushing systems inside the barn are currently not allowed due to regulations. Another aspect is that In-house SATs are permanent installations which use more acid than In-field and In-storage SATs. However, In-house SATs have the best potential for reducing ammonia emissions so this might be of interest for farms in environmentally sensitive areas.

    Compared to In-house, there was greater interest in the In-storage SAT that acidifies all slurry sent to the storage, since this could likely more easy to implement into existing manure handling systems. It is still a stationary system for a specific farm, but installation would be simpler and emissions would be lower from both storage and spreading.

    In general, there is a good potential to implement currently available SATs into existing manure handling systems in BSR countries and most identified bottle-necks could be dealt with.

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