Feasibility of ASH DEC‐ process in treating sewage sludge and manure ash in Finland

In Finland the thermal treatment of sewage sludge has been moderate in 21th century. The reason has been the high moisture content of sludge. During 2005-2008, 97-99% of sewage sludge was utilized in landscaping and agriculture. However agricultural use has been during 2005-2007 less than 3 %. The aim of national waste management plan is that by 2016 100% of sludge is used either as soil amendment or energy. The most popular utilization method for manure is spreading it on arable land. The dry manures such as poultry manure and horse manure could also be used in incineration. The ashes could be used as fertilizers and while it is not suitable as a starter fertilizer, it is suitable in maintaining P levels in the soil. One of the main drivers for more efficient nutrient management is the eutrophication in lakes and the Baltic See. ASH DEC process can be used in concentrating phosphorus rich ashes while separating the heavy metals that could be included. ASH DEC process uses thermochemical treatment to produce renewable phosphate for fertilizer production. The process includes mixing of ashes and chlorine donors and subsequent treatment in rotary kiln for 20 min in temperature of 900 – 1 050 oC. The heavy metals evaporate and P-rich product is obtained. The toxic substances are retained in air pollution control system in form of mixed metal hydroxides. The aim of conducting this study is to estimate the potential of ASH DEC process in treating phosphorus rich ashes in Finland. The masses considered in are sewage sludge, dry manure from horses, and poultry and liquid pig manure. To date the usual treatment method for sewage sludge in Finland is composting or anaerobic digestion. Part of the amount of produced sewage sludge (800 kt/a fresh mass and 160 kt/a TS) could also be incinerated and the residual ashes used in ASH DEC process. Incinerating only manure can be economically difficult to manage because the incineration of manure is in Finland considered as waste incineration. Getting a permit for waste incineration is difficult and also small scale waste incineration is too expensive. The manure could act as an additional feedstock in counties with high density of animal husbandry where the land area might not be enough for spreading of manure. Now when the manure acts as a supplementary feedstock beside sludge, the ash can’t be used directly as fertilizer. Then it could be used in ASH DEC process. The perquisite is that the manure producers could pay for the incineration, which might prove problematic.

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

The Current Situation of Sewage Sludge and Manure Treatment in Livestock Enterprises in the Leningrad Region

The problem concerning livestock waste handling in the Leningrad region has been subjected to a number of research works. However, the requirements for use of manure and sewage sludge as well as for treatment processes are not certain. So, this problem remains relevant and, therefore, further investigation ought to be made. Currently a large amount of sewage sludge and manure is generated in the Leningrad region. These livestock wastes have to be obligatory treated. The most common methods for treatment in the region, such as anaerobic digestion, composting and aging as well as the most potential methods are described in the thesis. The most potential methods for the Leningrad region are anaerobic digestion, composting and combustion. Each method has strengths and weaknesses, which are also considered in the paper. Aging was not considered as potential treatment method because it does not meet the sanitary and epidemiological requirements. Furthermore, the work gives an overview and comparison of Finnish and Russian legislative and normative acts concerning livestock wastes handling. On the whole the requirements of the Russian Federation concerning sewage sludge and manure are not much different from the Finnish ones.

The Methods of Possible Joint Treatment of Manure and Sewage Sludge in the Leningrad Region

The nutrient load to the Gulf of Finland has started to increase as a result of the strong economic recovery in agriculture and livestock farming in the Leningrad region. Also sludge produced from municipal wastewater treatment plant of the Leningrad region causes the great impact on the environment, but still the main options for its treatment is disposal on the sludge beds or Landfills. The aim of this study was to evaluate the implementation of possible joint treatment methods of manure form livestock and poultry enterprises and sewage sludge produced from municipal wastewater treatment plants in the Leningrad region. The study is based on published data. The most attention was put on the anaerobic digestion and incineration methods. The manure and sewage sludge generation for the whole Leningrad region and energy potential produced from their treatment were estimated. The calculations showed that total amount of sewage sludge generation is 1 348 000 t/a calculated on wet matter and manure generation is 3 445 000 t/a calculated on wet matter. The potential heat release from anaerobic digestion process and incineration process is 4 880 000 GJ/a and 5 950 000 GJ/a, respectively. Furthermore, the work gives the overview of the general Russian and Finnish legislation concerning manure and sewage sludge treatment. In the Gatchina district it was chosen the WWTP and livestock and poultry enterprises for evaluation of the centralized treatment plant implementation based on anaerobic digestion and incineration methods. The electricity and heat power of plant based on biogas combustion process is 4.3 MW and 7.8 MW, respectively. The electricity and heat power of plant based on manure and sewage sludge incineration process is 3.0 MW and 6.1 MW, respectively.

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.

Biokaasulaitoksen rejektivesien vaikutus jätevedenpuhdistamon toimintaan ja rejektivesien esikäsittelyn tarpeellisuus

Diplomityön tavoitteena oli tutkia biokaasulaitoksen rejektivesien ominaisuuksiin vaikuttavia tekijöitä ja rejektiveden esikäsittelyn tarpeellisuutta. Lisäksi tavoitteena oli tarkastella Kouvolaan suunnitteilla olevan Kymen Bioenergia Oy:n biokaasulaitoksen rejektivesien vaikutusta Kouvolan Veden Mäkikylän jätevedenpuhdistamolla. Biokaasulaitoksen rejektivedet ovat yhdyskuntajätevesiin verrattuna selvästi konsentroituneempia. Jätevedenpuhdistamoilla erityisesti rejektiveden korkea typpipitoisuus aiheuttaa lisäkuormitusta. Suomessa toiminnassa oleville biokaasulaitoksille tehdyn kyselytutkimuksen tulosten perusteella rejektiveden typpipitoisuuteen vaikuttaa syötteen typpipitoisuus sekä mädätysjäännöksen kuivauksen tehokkuus. Rejektiveden kiintoainepitoisuudella on puolestaan vaikutusta biologiseen hapenkulutukseen ja välillisesti myös rejektiveden kemialliseen hapenkulutukseen. Rejektivesien jätevedenpuhdistamoilla aiheuttamaa kuormitusta on mahdollista vähentää esikäsittelemällä rejektivedet joko biologisella tai fysikaalis-kemiallisella puhdistusmenetelmällä. Kyselytutkimus kuitenkin osoitti, että rejektivesien esikäsittelyssä ei aina päästä puhdistustavoitteeseen. Jätevedenkäsittelyn sijaan rejektivesiä on mahdollista käyttää lannoitteena, mikäli biokaasulaitoksen syöte ei sisällä jätevedenpuhdistamon lietteitä. Myös Kouvolan Veden Mäkikylän puhdistamolla biokaasulaitoksen rejektivedet tulevat lisäämään merkittävästi tulovirtaaman typpikuormaa. Typpikuorman lisäys edellyttää ilmastusaltaassa ilmastuksen tehostamista sekä kalkin syöttömäärän lisäämistä, jotta jäteveden happipitoisuus ja pH pysyvät typenpoistoreaktioille suotuisina. Lisäksi tulovirtaamasta puolet tullaan ohjaamaan esiselkeyttimen ohi, jotta ilmastusaltaassa on orgaanista ainetta typenpoistoon riittävästi. Mäkikylän puhdistamon typenpoistokapasiteettia on mahdollista kasvattaa lisähiilen syötöllä. Mikäli biokaasulaitoksen kapasiteettilisäyksen jälkeen rejektivesien typpikuoma ylittää lisähiilellä saavutetun lisäkapasiteetin, on rejektivedet esikäsiteltävä.

Integration of the Food Waste Disposer Unit to the Existing Sewage System

Among the numerous approaches to food waste treatment, the food waste disposers method (FWDs), as a newcomer, has become slowly accepted by the general public owing to the worries about its impact on the existing sewage system. This paper aims to justify the role of FWDs in the process of urbanization in order to better prepare a city to take good care of the construction of its infrastructure and the solid waste treatment. Both the literatures and the case study help to confirm that FWDs has no negative effects on the wastewater treatment plant and it is also environmental friendly by reducing the greenhouse gas emissions. In the case study, the Lappeenranta waste water treatment plant has been selected in order to figure out the possible changes to a WWTP following the integration of FWDs: the observation shows only minor changes take place in a WWTP, in case of 25% application, like BOD up 7%, TSS up 6% and wastewater flowrate up 6%, an additional sludge production of 200 tons per year and the extra yield of methane up to 10000m3 per year; however, when the utilization rate of FWD is over 75%, BOD, TSS, and wastewater flowrate will experience more significant changes, thus exerting much pressure on the existing WWTP. FWDs can only be used in residential areas or cities equipped with consummate drainage network within the service sphere of WWTP, therefore, the relevant authority or government department should regulate the installation frequency of FWDs, while promoting the accessory application of FWDs. In the meanwhile, WWTP should improve their treatment process in order to expand their capacity for sludge treatment so as to stay in line with the future development of urban waste management.