(best examples and good practices) on household organic waste ...
(best examples and good practices) on household organic waste ... (best examples and good practices) on household organic waste ...
Pictures: Picture 1.: Overview of windrow composting operation ......................................................................... 11 Picture2.: View of machine used to aerate compost placed in windrows ................................................ 12 Picture 3.: Glass waste ........................................................................................................................... 61 Picture 4.: Plastic waste ......................................................................................................................... 62 Picture 5.: Food waste ............................................................................................................................ 63 Picture 6.: Typical
Picture 30.: The heat exchanger system of Dresden plant in Germany .................................................. 122 Picture 31.: Pelleting machine of the Dresden plant in Germany........................................................... 124 Picture 32.: Grass drier facility.............................................................................................................. 126 Picture 33.: The Rennerod plant in Germany ........................................................................................ 127 Picture 34.: Delivery crane in Rennerod plant in Germany .................................................................... 128 Picture 35.: The condensate treatment in Rennerod plant in Germany ................................................. 129 Picture 36.: The Ludwigslust plant in Germany (Wastesum project, Del 3A. 2010) ................................ 132 Picture 37.: Underground container ..................................................................................................... 138 Picture 38.: The Ecoferm biogas plant in Huddinge ............................................................................... 147 Picture 39.: Public fuelling station in Linköping .................................................................................... 150 Picture 40.: The Åby plant in Linköping................................................................................................. 151 Picture 41.: The fast filling station for busses in Västerås ..................................................................... 154 Picture 42.: The Växtkraft biogas plant in Västerås .............................................................................. 155 Picture 43.: Paper bag with household waste at the input station at the biogas plant in Västerås ........ 156 Picture 44.: The Ljungsjöverket plant in Sweden ................................................................................... 157 Picture 45.: The Dåva district heating
- Page 1 and 2: National Technical University of At
- Page 3 and 4: 3.3.4. Landfill sy
- Page 5 and 6: 10.4.2.Susteren sewage treatment <s
- Page 7: Figure 44.: Västerås concept ....
- Page 11 and 12: (Table 8.): The Ljungsjöverket pla
- Page 13 and 14: 2 1. Bio-WASTE MANAGEMENT LEGISLATI
- Page 15 and 16: 4 The Directive envisages the possi
- Page 17 and 18: 6 In the Commission's estimation, a
- Page 19 and 20: 8 of yard waste and</strong
- Page 21 and 22: 10 conditions (i.e., as brief as a
- Page 23 and 24: 12 Picture2.: View of machine used
- Page 25 and 26: 14 In-Vessel Composting Systems In
- Page 27 and 28: 16 The duration of the composting p
- Page 29 and 30: 18 Figure 7.: Principal emissions f
- Page 31 and 32: 20 2.2 Anaerobic Digestion (AD) 2.2
- Page 33 and 34: 22 4. Finally, methanogenic organis
- Page 35 and 36: 24 If the proper conditions cannot
- Page 37 and 38: 26 Considerations such as the desig
- Page 39 and 40: 28 to the viscosity of the feed, th
- Page 41 and 42: 30 The Netherlands
- Page 43 and 44: 32 Heavy metals in digestate usuall
- Page 45 and 46: 34 3. Large scale biodegradable was
- Page 47 and 48: 36 power and 1,200
- Page 49 and 50: 38 filtration or electrostatic prec
- Page 51 and 52: 40 acceptable range, but reduce the
- Page 53 and 54: 42 Rotary kiln furnaces Rotary kiln
- Page 55 and 56: 44 It has been processed an
- Page 57 and 58: 46 Heavy metals can be grouped into
Pictures:<br />
Picture 1.: Overview of windrow composting operati<strong>on</strong> ......................................................................... 11<br />
Picture2.: View of machine used to aerate compost placed in windrows ................................................ 12<br />
Picture 3.: Glass <strong>waste</strong> ........................................................................................................................... 61<br />
Picture 4.: Plastic <strong>waste</strong> ......................................................................................................................... 62<br />
Picture 5.: Food <strong>waste</strong> ............................................................................................................................ 63<br />
Picture 6.: Typical <str<strong>on</strong>g>examples</str<strong>on</strong>g> of c<strong>on</strong>tainers <str<strong>on</strong>g>and</str<strong>on</strong>g> enclosures used for solid <strong>waste</strong> storage ......................... 67<br />
Picture 7.: Manual Waste Sorting........................................................................................................... 68<br />
Picture 8.: Eddy Current Separator ......................................................................................................... 77<br />
Picture 9.: Household composter ............................................................................................................ 82<br />
Picture 10.: Waste is shredded at Ecodeco’s M<strong>on</strong>tanaso Plant in Italy ................................................... 93<br />
Picture 11.: The Corteol<strong>on</strong>a plant in Italy. .............................................................................................. 96<br />
Picture 12.: The Tufino plant in Italy. ...................................................................................................... 98<br />
Picture 13.: Part of the ‘CTM’ compost turning machine at Tufino plant in Italy ..................................... 99<br />
Picture 14.: Organic <strong>waste</strong>-collecti<strong>on</strong> lorry ........................................................................................... 100<br />
Picture 15.: Final storage of compost at the plant ................................................................................ 103<br />
Picture 16.: Anaerobic digester fully operati<strong>on</strong>al inside the facilities .................................................... 109<br />
Picture 17.: Power generator................................................................................................................ 109<br />
Picture 18.: Anaerobic digester............................................................................................................. 111<br />
Picture 19.: Box for incoming sludge..................................................................................................... 112<br />
Picture 20.: Heat water pipes ............................................................................................................... 112<br />
Picture 21.: Sludge mixing mechanism ................................................................................................. 113<br />
Picture 22.: Air mixing mechanism ....................................................................................................... 114<br />
Picture 23.: Programmable logical c<strong>on</strong>trol system ................................................................................ 114<br />
Picture 24.: Air removal chimney .......................................................................................................... 115<br />
Picture 25.: Sump for dried sludge ........................................................................................................ 115<br />
Picture 26.: Temporary storage ............................................................................................................ 116<br />
Picture 27.: Hole where the sludge is been tipped of to the tracks ........................................................ 116<br />
Picture 28.: The Kaiserslautern plant in Germany ................................................................................. 117<br />
Picture 29.: Delivery in the h<str<strong>on</strong>g>and</str<strong>on</strong>g>over shafts (left) <str<strong>on</strong>g>and</str<strong>on</strong>g> inner view of the bunker (right) of Dresden plant in<br />
Germany .............................................................................................................................................. 121