Yhdyskuntalietteiden terminen käsittely ja prosessissa syntyvän tuhkan jalostaminen fosforilannoitteeksi Lappeenrannan alueella

Tässä diplomityössä on selvitetty yhdyskuntalietteiden ominaisuuksia sekä käsittelymenetelmiä keskittyen termiseen käsittelyyn, jolla tässä työssä tarkoitetaan lietteen termistä kuivausta ja polttoa. Työssä on myös selvitetty lietteen poltossa syntyvän tuhkan ominaisuuksia ja niiden sopivuutta lannoitteen raaka-aineena. Fosforimalmin varannot ovat rajalliset ja olettavaa on, että helposti hyödynnettävissä oleva fosforimalmi loppuu noin sadan vuoden kuluessa, mikäli fosforin kulutus pysyy nykyisellä tasolla. Kun lietettä poltetaan, jää lietteessä oleva fosfori tuhkaan. Lietteenpoltossa syntyvät tuhkat sisältävät fosforin lisäksi erilaisia haitta-aineita, joten tuhkan sisältämää fosforia ei kyetä hyödyntämään ilman käsittelyä. Työn case-osassa on selvitetty Lappeenrannan alueella syntyvä yhdyskuntalietemäärä sekä sen hyötykäyttömahdollisuudet alueellisessa lietteen polttolaitoksessa. Lappeenrannan tapauksessa syntyvä lietetuhkan määrä on arvioitu ja määritetty paljonko tuhkasta olisi tulevaisuudessa mahdollisuus jalostaa fosforilannoitetta. Tutkimuksen lopputuloksena voidaan todeta, että lietteen poltto ja polton tuhkan käyttö lannoitteena ei vielä kokonaisprosessina ole toteutettavissa oleva vaihtoehto, mutta teknologisen kehityksen jatkuessa se voisi olla potentiaalinen vaihtoehto yhdyskuntalietteen ja lietetuhkan käsittelyn kokonaisratkaisuksi.

Sustainability of protein production by bioreactor processes using wind and solar power as energy sources

Food production account for significant share of global environmental impacts. Impacts are global warming, fresh water use, land use and some non-renewable substance consumption like phosphorous fertilizers. Because of non-sustainable food production, the world is heading to different crises. Both food- and freshwater crises and also land area and phosphorous fertilizer shortages are one of many challenges to overcome in near future. The major protein sources production amounts, their impacts on environment and uses are show in this thesis. In this thesis, a more sustainable than conventional way of biomass production for food use is introduced. These alternative production methods are photobioreactor process and syngas-based bioreactor process. The processes’ energy consumption and major inputs are viewed. Their environmental impacts are estimated. These estimations are the compared to conventional protein production’s impacts. The outcome of the research is that, the alternative methods can be more sustainable solutions for food production than conventional production. However, more research is needed to verify the exact impacts. Photobioreactor is more sustainable process than syngas-based bioreactor process, but it is more location depended and uses more land area than syngas-based process. In addition, the technology behind syngas-based application is still developing and it can be more efficient in the future.

Long-term fertilizer field trials: comparison of three mathematical response models

Selostus: Lannoituksen pitkäaikaiset kenttäkokeet: kolmen matemaattisen mallin vertailu

Effects of variety, soil type and nitrogen fertilizer supply on the nutritive value of barley for growing pigs

Selostus: Lajikkeen, typpilannoitustason ja maalajin vaikutus ohran ruokinnalliseen arvoon lihasioilla

Effect of fertilizer treatment on the biomass production and nutrient uptake of short-rotation willow on cut-away peatlands

Summary

Effect of repeated fertilizer application on the nutrient status and biomass production of salix 'Aquatica' plantations on cut-away peatland areas

Summary

Nitrogen and phosphorus losses in surface runoff and drainage water after application of slurry and mineral fertilizer to perennial grass ley

Selostus: Typen ja fosforin kulkeutuminen pinta- ja salaojavalunnassa lietelannalla ja NKP-lannoitteella lannoitetulta nurmelta

Intensification of Operation of Inclined Plate Settler at Fertilizer Plant

Fertilizer plant’s process waters contain high concentrations of nitrogen compounds, such as ammonium and nitrate. Phosphorus and fluorine, which originate from phosphoric acid and rock phosphate (apatite) used in fertilizer production, are also present. Phosphorus and nitrogen are the primary nutrients causing eutrophication of surface waters. At fertilizer plant process waters are held in closed internal circulation. In a scrubber system process waters are used for washing exhaust gases from fertilizer reactors and dry gases from granulation drums as well as for cooling down the fertilizer slurry in neutralization reactor. Solids in process waters are separated in an inclined plate settler by gravitational sedimentation. However, the operation of inclined plate settler has been inadequate. The aim of this thesis was to intensify the operation of inclined plate settler and thus the solids separation e.g. through coagulation and/or flocculation process. Chemical precipitation was studied to reduce the amount of dissolved species in process waters. Specific interest was in precipitation of nitrogen, phosphorus, and fluorine containing specimens. Amounts of phosphorus and fluorine were reduced significantly by chemical precipitation. When compared to earlier studies, annual chemical costs were almost eight times lower. Instead, nitrogen compounds are readily dissolved in water, thus being difficult to remove by precipitation. Possible alternative techniques for nitrogen removal are adsorption, ion exchange, and reverse osmosis. Settling velocities of pH adjusted and flocculated process waters were sufficient for the operation of inclined plate settler. Design principles of inclined plate settler are also presented. In continuation studies, flow conditions in inclined plate settler should be modelled with computational fluid dynamics and suitability of adsorbents, ion exchange resins, and membranes should be studied in laboratory scale tests.