The purpose of this thesis was to make an energy survey and quantify energy flows of individual unit operations associated with the biogas production in Uppsala Vatten och Avfall AB:s biogas plant, located at Kungsängens gård. Moreover, large consumers of energy would be identified and analyzed. The objective of this energy survey was to obtain a detailed understanding of the energy use in the biogas production.The energy survey was divided into two parts: electricity and heat. Each part was treated separately and with somewhat different approach. To estimate the electricity usage during the projcet the rated power of each selected unit operation was noted and multplied with thenmeasured time of usage.

The purpose of this thesis was to make an energy survey and quantify energy flows of individual unit operations associated with the biogas production in Uppsala Vatten och Avfall AB:s biogas plant, located at Kungsängens gård. Moreover, large consumers of energy would be identified and analyzed. The objective of this energy survey was to obtain a detailed understanding of the energy use in the biogas production. The energy survey was divided into two parts: electricity and heat. Each part was treated separately and with somewhat different approach. To estimate the electricity usage during the projcet the rated power of each selected unit operation was noted and multplied with the measured time of usage.

I detta examensarbete för Högskoleingenjörsprogrammet för elkraft gjordes i arbetets första del en uppskattning och modellering av substrattillgången för en föreslagen mindre biogasanläggning lokaliserad i Övertorneå. Anläggningen förses med substrat från jordbruk, avfall från reningsverk och matavfall från båda Övertorneå och Ylitornio kommuner. Dessutom ingick en modellering av möjlig biogasproduktion och bedömning av lämplig biogasanvändning. I denna modellering ingår även en bedömning av om substrattransporterna är energimässigt hållbara.De möjliga användningarna för gasen är värmeproduktion, kraftvärmeproduktion, fordonsgasproduktion och vätgasproduktion för både fordon och kraftvärme med bränslecell. Slutsatsen var att det lämpligaste alternativet var en biogasen bör användas till kraftvärmeproduktion av traditionell sort men att i framtiden kanske en uppgradering till kraftvärme från vätgas med biogas vara möjlig om tekniken bedöms vara mogen.

Biogas a?r en fo?rnybar energika?lla som kan framsta?llas genom ro?tning av organiskt material som go?dsel eller gro?dor. Trots att lantbruket sta?r fo?r 76 % av den totala biogaspotentialen i Sverige producerades endast en procent av biogasen 2008 i ga?rdsanla?ggningar. Uppsatsens syfte a?r att ge en o?versikt o?ver vad som orsakar den la?ngsamma utvecklingen av sma?skalig biogas, samt att ge fo?rslag till lo?sningar som kan leda till en snabbare expansion.

The development of farm-operated biogas plants in Sweden is increasing. This study investigates the process that firms go through in developing such ventures. The aim is to identify obstacles and opportunities that individual farmers have encountered during the implementation process, and through a comparative analysis find similarities and differences between cases. The overall goal is to increase understanding of the factors that influence farmers? development of farm-based biogas production, and more specifically, explore opportunities for support organizations to contribute to the innovation process. Findings indicate that the implementation process has changed over time.

Sedan 1996 står biogas för över hälften av den använda fordonsgasen i Sverige. Det blir således allt mer angeläget att framställa biogas. Biogasprojektet Biogas i Brålanda har för avsikt att framställa biogas genom rötning av naturgödsel/stallgödsel och, eller slakterirester.Materia från en eller flera rötas för att producerar biogas och efter rötningen återstår ett högkvalitativt gödselmedel, biogödsel. Biogödseln skall användas som gödsel på de till projektet anslutna åkrarna. Uppsatsens huvudfråga är huruvida biogödseln från projektet Biogas i Brålanda får användas som gödsel på de till projektet anslutna åkrarna.

It is essential to reuse- and recycles residues to decrease the amount of deposit materials and reach sustainable energy use. Two ways to work towards this is to recycle wood ashes to the forest as nutrient compensation and extract biogas from combustion of biomass.The aim with this study was to decide whether wood ashes that been used for biogas upgrading with accelerated carbonation also can be used as a nutrient compensation in the woods according to recommendations from the Swedish Forest Agency (Skogsstyrelsen).The ashes that were used in this study came from Johan Andersson who works at JTI in Uppsala, who also treated the ashes with biogas. The ashes have, in both untreated and treated condition, been analyzed in this study according to contents of elements, leaching properties, hardening properties and contents of crystalline phases, to evaluate what impact carbonation with biogas has on the ashes.The accelerated carbonation led to hardening of the ash, and decreased amount of CaO- and increased amount of CaCO3. The CO2-uptake also entails a dilution of the elements, and the content of nutrients and trace elements decreases. However the results show an indication of an uptake of S from the biogas to the ash, since the dilution had a smaller impact on S than the rest of the elements.

Food is widely consumed and in 2011 an average American devoured approximately one ton of food. The production of these goods requires large amounts of energy and contributes to 22-31 % of all greenhouse gas emissions occurring in Europe. More than one third of the produced food is discarded instead of consumed, and food waste make up about 30 % of the waste generated by households. 60 % of this food waste could be avoided if the eatables were handled in a better way.Avoidable food waste arises partly because residues from food are not taken care of, and because the food is not stored in a way that optimise its durability. Residues arises part- ly because of the contradictory and complex demands of everyday life and are, because of our busy lifestyle, difficult to avoid.

Svensk Växtkraft is the owner of the biogas plant in Västerås. The company is planning to increase their treatment capacity at their biogas plant. In connection to this work it is also possible to make some energy saving changes to the biogas plant. The objective of this study was therefore to make an electricity and heat survey of the biogas plant, a detailed study of the heat consumption in the sanitation step and also a comparison of energy consumption with the present sanitation method and an alternative strategy where the waste is treated in 55 °C during 10 hours (the current method is heating to 70 °C during 1 hour). The energy survey was conducted in close collaboration with staff at the biogas plant. The current during normal operation was measured, power was calculated and multiplied by the time of usage to obtain the energy consumed.

En omfattande miljöpåverkan till följd av användandet av fossila bränslen har letttill ett behov av alternativa energikällor som inte bidrar till en ökad växthuseffekt.Biogas har potential att produceras som ett koldioxidneutralt bränsle. Det energibesparande ämnet i biogas är metan och kandidatarbetets syfte är att framställametan under katalytiska processer.Metan kan skapas genom den sa kallade Sabatier-reaktionen där koldioxid ochvätgas reagerar till just metan och biprodukten vatten. Denna reaktion har studeratsur ett praktiskt, miljömässigt och ekonomiskt perspektiv. En Sabatier-reaktori laborativ skala har designats och konstruerats. Flertalet försök har gjorts för attutvärdera effekten av olika parametrar såsom temperatur, volymsflöde och gassammansättning.

Biogas mainly consists of methane and carbon dioxide, where methane is theenergy-rich gas, and is naturally created when organic matter breaks down in absenceof oxygen, also known as anaerobic digestion. A biogas plant re-creates the anaerobicconditions inside a digester where the organic substrate is fed into and digests toproduce biogas. The gas is then used to produce energy by combustion and can beseen as a completely renewable fuel.Today, energy from biogas is used primarily by major stakeholders such asmunicipalities and thus the plants become very large with high investment- andconstruction costs. There are currently few small plants in Sweden, even though thepotential for agriculture and medium-sized to smaller farms to become self-sufficientin terms of electricity and heat is great. Farms have a natural stock of digestibleorganic material in form of manure or crops for example, which are constantlyavailable.

Because of the increasing trends in energy consumption and increased environmental awareness, greater focus has been placed on improvement and development of renewable energy sources. An already proven and accepted method is biogas production from anaerobic digestion at municipal wastewater treatment plants.In the waste water treatment process solid material and dissolved pollutants are separated from the water, forming a sludge. The sludge is separated from the process and stabilized during anaerobic digestion or aerobic aeration. Most often, mesophilic anaerobic digestion is used. Because of degradation by microorganisms, biogas with a high content of methane is formed during the digestion.

Är det möjligt att reducera utsläppen av växthusgaser och samtidigt nå en hållbar utveckling? Regionförbundet i Kalmar län antog utmaningen 2006 och är därmed en föregångsregion i arbetet med detta. Till år 2030 är målet att Kalmar län ska bli en fossilbränslefri region. Den största potentialen anses finnas inom nya alternativ till fordonsbränsle. Hushållens sopor innehåller organiskt matavfall som skulle kunna bli fordonsgas.

The world?s growing need for energy together with a desire to ward off the worst consequences of global climate change has resulted in a never seen desire to invest resources in renewable energy sources. Biogas production through anaerobic digestion is one of those growing energy sources. In Sweden there are over two hundred plants that uses this biological process to break down organic substances while producing carbon dioxide and the energy-rich gas methane.This master?s thesis has focused on development of the mixture of different organic substances that is treated at a specific plant, namely Mosserud biogas plant.

Odling av mikroalger för framställning av biogas är ett relativt outforskat område. Den forskning som hittills utförts har påvisat lovande resultat tack vare möjligheten att utnyttja resurser som idag går till spillo, eller till och med utgör miljöproblem; mikroalgerna kan rena både näringsrikt vatten (exv. avloppsvatten) och koldioxidutsläpp (rökgaser från industrin) då de tar upp föreningar innehållande kväve, fosfor och kol från dessa källor. Den producerade biogasen kan ersätta fossila bränslen. Dessutom skapas en rötrest som kan återföras till odlingsmarker vilket sluter näringskretsloppet.