introduction to waste management systems jpn
DESCRIPTION
Waste ManagementlTRANSCRIPT
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Introduction to Waste Management Systems in Japan
Toyohashi University of TechnologyToyohashi University of TechnologyToyohashi University of TechnologyToyohashi University of Technology
Department of Environmental and Life ScienceDepartment of Environmental and Life ScienceDepartment of Environmental and Life ScienceDepartment of Environmental and Life Science
Aichi, JAPANAichi, JAPANAichi, JAPANAichi, JAPAN
Hiroyuki DaimonHiroyuki DaimonHiroyuki DaimonHiroyuki Daimon
Biomass Town Training in JapanBiomass Town Training in JapanBiomass Town Training in JapanBiomass Town Training in Japan ........GlobizGlobizGlobizGlobiz, Tokyo, Tokyo, Tokyo, Tokyo
Supercritical TechnologySupercritical TechnologySupercritical TechnologySupercritical Technology
Development and Assessment of Recycling TechnologyDevelopment and Assessment of Recycling TechnologyDevelopment and Assessment of Recycling TechnologyDevelopment and Assessment of Recycling Technology
Biomass Town and Eco TownBiomass Town and Eco TownBiomass Town and Eco TownBiomass Town and Eco Town
Biomass Utilization in IndonesiaBiomass Utilization in IndonesiaBiomass Utilization in IndonesiaBiomass Utilization in Indonesia
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Waste Management Concept in JAPANWaste Management Concept in JAPANWaste management:CollectionTransportProcessingRecyclingDisposal
Reduce the negative impacts waste has on environment and society.
Reduce the negative impacts waste has on environment and society.
Methods of Waste Management:
Disposal Methods
Incineration
Land fills
Recycling Methods
Biological reprocessing (C and M)
Energy recovery
i) Pyrolysis
ii) Gasification
Waste Classification:Industrial Enterprise is responsible for
treating it.
Municipal Municipalities are responsible for management
Attention!!!
Biomass M
Biomass I
Efficiency?
Food waste (I and M), Leaf and Wood (I)Sludge (I and M jokaso)
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Recycling-oriented SocietyTransformation into a Recycling-oriented Society:Reduction of natural resource
consumption and waste generation
Minimization of environmental risks in the process of waste treatment
Transformation into a Recycling-oriented Society:Reduction of natural resource
consumption and waste generation
Minimization of environmental risks in the process of waste treatment
Waste Management Hierarchy under the Fundamental Law:1. Source reduction or waste prevention2. Re-use3. Recycling4. Energy recovery5. Appropriate disposal
Waste Management Hierarchy under the Fundamental Law:1. Source reduction or waste prevention2. Re-use3. Recycling4. Energy recovery5. Appropriate disposal
General Law Concerning the Dissemination of the 3R
Reduce the generation of sub-
products in the production process.
Adopt Zero Emission measures;
Collection and recycling of used
products.
Reduce the generation of sub-
products in the production process.
Adopt Zero Emission measures;
Collection and recycling of used
products.
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Considering Recycling (Cascade Utilization)
Amount
QualitySeparation
High value materialNote) Factor inOrganic and inorganicLocationScaleSocial statusSelf-sufficient
Recycling societyOil priceLow carbon societyOthers
ImageHigh
LowFew A lot
Fuel
Human foodHorizontal useCompositePet foodFeedCompost FertilizerBuilding material
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a.PlantationForestryDevelopment of high performance forestry machines introducedrediscovery of non - timber forest productsPlantation conversion
e.e.e.e.Agriculture Engineering
Cellulose feed Bark compost
a.Biofuela.Biofuela.Biofuela.Biofuel productionproductionproductionproductionBioethanol from wood
c.c.c.c.Hydrothermal treatment of waste
Methane fermentation Burning
Hydrogen fermentation
Forest resource base in Aichi and
creation of a recycling society
BiomassAdvanced technology available
Natural WisdomaliveActivation of primary industry, environmental
and mountains protection
Natural WisdomaliveActivation of primary industry, environmental
and mountains protection
2Next generation tool for forest management and forestry support
d.d.d.d.MixedMixedMixedMixed combustioncombustioncombustioncombustionCO
2emissions Mixed catalyst
a. a. a. a. Evaluation of environment and biodiversityCO2absorbtionfixation Landslide prevention Water conservation shorelinebeach sandsfishery conservationBiodiversity conservation
b.b.b.b.Economic system
evaluation
CDM national practiceEco-economy
c.Infrastucturec.Infrastucturec.Infrastucturec.Infrastucture and network formationand network formationand network formationand network formationCore of various group Information dispatch base Entire summary
Low-carbon society through cooperation in different fields and industries
Evaluation of sustainable society base on forest
Co
mplex
region
al reso
urce
recov
ery pla
n
(2) Effective utilization development of unused biomass resources
b.Forestry activityHuman resources . EmploymentRecreation and ecotourismBusiness Development Citizen Participation
Fiber Plastic New material
b.Biorefineryb.Biorefineryb.Biorefineryb.Biorefinery
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Effect of material properties and liquid introduced to methane fermentation on liquid fertilizer utilization Biomass town concept
Abandoned farmlandSorghum cultivationSorghum cultivation
A large number of cow manure
Manure 1030kg/day/cowUrine 620kg/day/cow
Livestock feed
Methane fermentation
Wastewater treatment costs
Digested wastewater Problem
Chita Biomass utilization project year 2010
Used as liquid
fertilizer
Milk
cow
Food wasteEthanol
production
Manure surplus Odor problemWater
contamination
Chita Hantou Goichigo region fiscal year 2011Livestock, Bio-oil,Bamboo and pruning branches,Sludge and garbage, Bank group
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Sewage treatment
Methane fermentation
Fertilizer
Fuel conversion
Purification
Drying
Carbonization
Discharge
PowerCar fuelPretreatment
fuel
Home gardenPhosphorus
recovery
Municipal wasteIncinerator
Treated water
Biogas
High fertilizer
Carbonized fuel
Wastewater
A waste-based business
Human wasteSeptic tank sludge
Volume reduction
Pruned branches
Center for biomass compound utilization and waste water treatment (My plan)
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Domestic waste project
Industrial waste
Households garbage
Pruning branches and grass
Septic tank sewage sludge
Sewage sludge
Plastic waste
Biomass
SurveySocial researchCarbonization
PretreatmentBio-gasification
Drying of liquid feed
CompostFertilizer conversion (drying)
Pig
PowerTruck fuel
FertilizerField
Carbonized fuel
Fuel material
Sewage plant
Digested waste
Biogas
Compost
Cleaning
Waste heat utilization
First precipitated sludge
Waste sludge
Recycling Center
Utilization of biomass from sewage sludge to produce high quality fertilizer
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Composting
Material recycle
Fuel conversion
Dry feed conversion
Crop farmers
Dry feed
The resource conversion center which utilizes incinerator exhaust heat
O
r
g
a
n
i
c
s
o
u
r
c
e
s
Plastic waste washing machine
Hot water(Hot
fermentation)
High
LowF
r
a
c
t
i
o
n
a
l
p
r
e
c
i
s
i
o
n
Liquid feed
2010.8.2
Steam
Cattle farm
Energy PlantIncenerator
Food retailing
Fish company
Restaurant
Farm houseAerobic system
or
Vacuum dry process Fracture
bag separation
Difficulty of use
Warm water ultrasonic washing system
Cow manure
Compost
Agricultural plastic waste type
Resource recovery recycle support data base Effect of separation emitted by factories (reducing greenhouse gas emissions, increase recycling rate) presented in a numberConstruction support of food recycling loop Production conditions Recycling Technology, a component of
a product display
Quality ManagementRegular analysis of compost and manure nutrients
ingredients in feedSimple and accurate quality check of the compost by
microbial community structure analysis
Container and packaging plastic waste
Agricultural residu
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Pig feedSolid content for, Moisture intakeVariety of subjects. But .
High-quality organic resources liquid feeding conversion by hydrothermal reaction cycle
Establishing an Environmental Recycling-based Society research Project FY 2007 - 2009
Dry Feed Dry feed from liquid feed
By professionalLiquid feedFermentation feed
An organic resource recycling1Liquid Feedorganic resource recycling2Liquid FeedEco-Feed
Hydrothermal reactionHigh quality liquid feed conversion
(Less than 200 oC)
Dry feed
Total availableRecycling societyLocal production for local consumptionIncreased self-sufficiencyOnly one technologyJapan meat
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Material1
Material2
Material3
Existing Technology
(such as lactic acid fermentation)
Technology apply(Hydrothermal
treatment)
Validation hydrothermal advantageHigh value-added liquid feed Network construction and FS
investigation
Purpose of this study
Object
Expanding the scope of the material
Material1
Material2
Material3
Material4
Material5
Reduce processing costsDrying after-treatment is unnecessary Decrease of manure discharge quantity
Quality Improvement of FeedImprove meat qualityImproved feed efficiencyShortening Fattening period Disease decrease (sinusitis)Odor abatement
Expected social effects
Construction of a recycling societyEffective waste utilizationPromotion of the Food Recycling system
Livestock manure emissions reduction
Activation of domestic pig industry
Improvement of food self-sufficiency
Food Manufacturing Brands
Creation of innovationRegional revitalization
Development of eco-life
Innovation and expected social benefit PurposePromising technological innovation
Technological innovation by hydrothermal reaction
Expansion of raw material Improvement of digestion
and absorption Effective use of phosphorus Sterilization effect Quality stabilization Feed conversion for cow
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Construction of energyrecycling
Oil Palm
Crude Palm Oil
POME
More efficient anaerobic digestion process
Palm oil factory
CH4
Energy
Ener
gyE
missio
ns
Trea
tmen
t
Products
Material
Liquid fertilizer
High co
ncentrations
of w
ater
Research Overview
Biogas
2/12
Production: World No. 1
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Palm oil production process
Palm oil1tonPalm oil1ton
Oily water separatorOily water separator
Fruit Seed
SteamSteam
Crushing, GrindingCrushing, Grinding
ClarificationClarification
Drying, purificationDrying, purification
Fruit removalFruit removal
CPO0.22tCPO0.22t
POME0.84m3POME0.84m3
CPOCrude Palm Oil
Emission at high temperature
TS (mg/L)
CODCr (mg/L)36000
44000
2/12
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Summary (in JAPAN?)
Out put Amount and Quality Material and Energy Balance Complex System Cooperation Sustainability FlexibilityWaste Treatment Enterprise Purpose