case study of rio de janeiro sustainable waste management · studies energy generation in caju...
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Case Study of Rio de JaneiroSustainable Waste Management
The search for environmental and economic sustainability with social responsibility
José Henrique Penido MonteiroCOMLURB – Cia. Municipal de Limpeza Urbana
Rio de Janeiro
High‐Level Symposium on Sustainable Cities and Sustainable Urbanisation
Yangzhou, December 2013
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The City of Rio de Janeiro and COMLURB The Municipal Waste Management Company
• Rio: territory and population: • 1,100 km2 and 6,2 million inhabitants• COMLURB:
– 22.000 employees; Annual budget: US$ 600 million– Services under its responsibility:• Household collection and street cleansing (10,000t/day)
• Collection on islands of the Jacarepagua lagoon• Free collection of bulk goods and household debris • Collection and street cleansing in low-income
communities with special equipment• Transfer and final disposal of waste• Treatment: composting and RDF production
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The City of Rio de Janeiro and COMLURBThe Municipal Waste Management Company
– Services under its responsibility, not related to regular waste management services:
• Cleaning and disinfection of 5 main hospitals of the municipal network
• Final disposal of hospital waste from the municipal public network (incineration and autoclave)
• Internal and external cleaning of 1,051 municipal schools• Meal preparation for 350 municipal public schools• Cleaning of the water surface of lakes and lagoons• Cleaning of 58 km of beaches• Trimming of 600.000 public trees• Maintenance of the 1,200 public squares and parks• Cleaning of public buildings (City Hall)• Vectors Control (rodents and African snail)• Manufacture of sweepers, tools and urban equipment (toys, slides,
seesaws, comfort station, etc.)
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HOUSEHOLD COLLECTION
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STREET CLEANSING
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WATER SURFACE CLEANING AND HOUSEHOLD COLLECTION ON ISLANDS
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FREE COLLECTION FOR HOUSEHOLD DEBRIS AND BULK MATERIALS
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BEACH CLEANING
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STREET MARKET CLEANING
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HILLSIDE CLEANING
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SPECIAL EVENTS (CARNIVAL AND NEW YEAR´S EVE)
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EMERGENCIES
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TRIMMING AND STUMP REMOVAL
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WASTE MANAGEMENT IN LOW‐INCOME COMMUNITIES
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CURBSIDE COLLECTION
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SCHOOLS AND HOSPITALS CLEANING
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Fabricação de ferramentas e mobiliário
MAINTENANCE OF URBAN FURNITURE
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Seropédica
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7 Transfer Stations
ETR – Santa Cruz ETR – Marechal Hermes
ETR – Caju ETR – Jacarepaguá
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COMLURB´S SUSTAINABLE AGENDA
• Legal Framework
• Studies• Being Implemented
• Installed and in Operation
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COMLURB´s Sustainable Agenda
• Legal Framework
NACIONAL POLITICS OF WASTE MANAGEMENT MUNICIPAL SUSTAINABILITY FOR THE CITY INTEGRATED MUNICIPAL WASTE MANAGEMENT PLAN
MUNICIPAL DECREE FOR C&D REGULATIONMUNICIPAL DECREE CREATING THE CARIOCA GROUP FOR CLIMATE CHANGESJOINT RESOLUTION BETWEEN SMAC‐COMLURB ABOUT COMPOST
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COMLURBCOMLURB´́S SUSTAINABLE AGENDAS SUSTAINABLE AGENDAStudies and Implemented ProjectsStudies and Implemented Projects
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STUDIESSTUDIESENERGY GENERATION IN CAJU RECYCLING PLANT
714,78 tpd 214,43 tpd89,35% of income 30,00%
26,80% of income
500,35 tpd 4.932 Nm³/dia 17,26 tpd70,00% 100 Nm³/t org 35,00%62,54% of income 55% methane 2,16% of income
8,00 tpd800 1,00% 517 tpd
1,00% of income
39,60 tpd 82,56 tpd 82,56 tpd5,00% 50,00% 50,00%4,95% of income 10,32% of income 10,32% of income
37,62 tpd 16,51 tpd 66,05 tpd5,00% 20,00% 80,00%4,70% of income 2,06% of income 8,26% of income
humidity loss reject screened compost
77,00%20,64% of income
recyclables
Cooperative: 480 employees
not screened compost mass loss
RDF biogas compost
MSW (tpd) great volumes / metalIncineration plant
aerobic digestion 165,11 tpd
Caju Plant
organic fraction/ RDF organic fraction anaerobic digestion 49,32 tpd
23,00%6,16% of income
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STUDIESSTUDIESC&D recycling in ATT´s – Sites of Recycling and Transfer
• Missões ‐ Up to 400 t/day
• Caju ‐ Up to 600 t/day
• Gericinó ‐ Up to 400 t/day
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STUDIESSTUDIESENERGECTIC EFFICIENCY IN ALL
COMLURB BUILDINGS
a) Study of consumer units
b) Draw the consumption profile
c) Check the adequacy of electricity fares
d) Make an inventory of installed equipment and their operating
regimes (Procel)
e) Check the consumption habits of users
f) Adequate actions and targets for energy savings
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Assignment of land for construction of six Recycling Centers
Curb side collection in 120 neighborhoods
Transport of the recyclables to the Recycling Centers
Installation of Ecopoints
Awareness Campaigns
Rio Ambiente 2011
Construction of six Recycling Centers equipped with machinery and equipment
Improvement of the production structure and marketing of the cooperatives
Training, management consulting and training of the network marketing to be operated by the cooperatives
Regularization of cooperatives and environmental permits
Awareness Campaigns
R$ 22.000.000,00R$ 28.000.000,00
THE NEW RECYCLING PROGRAM
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Rio Ambiente 2011
Curbside Collection
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RECYCLING CENTERS
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PAPER BINS AND CARTS MADE OUT OF COCONUT FIBER
For the manufacturing of this cart, 100 coconut shells were used.
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Street cleansing carts made from coconut fiber
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BROOMS MADE OF CANULATED PET AND
COCONUT FIBER
MECHANICAL SWEEPERS MADE OF PET
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EMISSION REDUCTIONS AND FLEET OPTIMIZATION MEASURESEMISSION REDUCTIONS AND FLEET OPTIMIZATION MEASURES(In colaboration with Clinton Foundation)(In colaboration with Clinton Foundation)
• Alternative Fuels (10% minimum renewable fuels)– Biodiesel
– Sugar Cane Diesel
– Ethanol
– Natural Gas
• Non Power Train Measures– Euro V compliance
– Hybrid Hydraulic
– Eco‐driving
– Green Tires
– Optimization
– Routes Optimization (weight on time and fleet control)
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Emission Reductions throughBiodiesel B20 from used cooking oil
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35
• Renewable diesel from sugar cane (“cane diesel”)
• Biodiesel – B20
• Ethanol
• Methane (compressed natural gas)
Near-Term Fuel OptionsFUEL STRATEGY: THROUGH 2016
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36
Waste Truck Option Map
Gaseous Fuels Path
Liquid Fuels Path
Electrochemical Fuels Path
Diesel Baseline
CNGEdible Oil Biodiesel
Propane AutonomousHybrids
Renewable Diesel
Ethanol
Renewable Gas
DME Ammonia
Plug‐In Hybrids
Battery‐Electric
LNG
Diesel Baseline
Diesel Baseline
Diesel Baseline
Hydrogen
Commercial Availability Key:
Full Early None
Hybridization/Electrificatio
n Path
Analyzed Option
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TECHNOLOGICAL PARK ATCAJU RECYCLING PLANT
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MAXIMIZING HOUSEHOLD RECYCLING – ONE BIN CURBSIDE COLLECTIONCOMMINGLED WASTE
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COLECTION OF ORGANIC WASTE IN SELECTED GENERATORS FOR COMPOSTING
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USE OF COMPOST IN THE CITY FORESTATION PROGRAM
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USE OF COMPOST IN THE CITY FORESTATION PROGRAMUSE OF COMPOST IN THE CITY FORESTATION PROGRAM
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after
Urubu / Babilônia - 23,4 ha / 74.200 young plants
before
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Methar TMO®
Tecnologia Nacional
1 – Galpão de armazenamento
2 – Alimentação dos digestores
3 – Túneis de Metanização
4 – Reator de líquidos
5 – Sistema de desarenação
6 – Condicionamento do biogás
7 – Gasômetro
8 – Unidade de cogeração
9 – Galpão de pós-tratamento
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Allendorf, GermanyBioferm PlantFebruary, 2011.
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RDF PRODUCTION FOR A PILOT WTE PLANT
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Plasma Reactor
In addition, the high temperatures of the process hinders the formation of dioxins, usually generated in the thermal process for treating waste, mainly incineration. The advantage of this method is the merging and inactivating of inorganic materials in the trash without generating ashes.
The plasma reactor degrades the waste turning it into a gas less pollutant than those obtained in usual processing of waste, such as landfill or incineration.
The Plasma Reactor would allow the reuse of leftovers in the manufacturing of recyclable and generating gas synthesis (generating energy).
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Biogas in the network
Project Novo Gramacho
First purification plant in South America
Green Gas
J
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NOVO GRAMACHO & GÁS VERDE
Gramacho landfillGramacho landfill
Landfill area: aprox. 200 hectares;Landfill area: aprox. 200 hectares;
Operation PerOperation Perííiod: from 1978 untill 2012 ;iod: from 1978 untill 2012 ;
9 ,000mil tons per day;9 ,000mil tons per day;
70 millions tons70 millions tons
Income: CER + sale of BIOGAS to Petrobras / REDUC Income: CER + sale of BIOGAS to Petrobras / REDUC (contract take or pay de 20 anos).(contract take or pay de 20 anos).
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GRAMACHO Landfill - 1980
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Gramacho Landfill (View January 2012)
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LOCAL
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GRAMACHO LANDFILL
Changing the Natural Gas to Green Gas (purified biogas to 95% CH4)
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APLICAÇÕES DO GÁS VERDE
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BIOGAS RECOVER AND PURIFICATIONGRAMACHO LANDFILL
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BIOGAS RECOVER AND PURIFICATION -GRAMACHO LANDFILL
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BIOGAS RECOVER AND PURIFICATION GRAMACHO LANDFILL
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Sale of 100,000 to 200,000 m3 /day of purified gas (>92% CH4) to Petrobras/REDUC
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100 HECTARS OF RECOVERED MANGROVE
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NEW SANITARY LANDFILL
• Environmental protection
• Recovery of biogas
• Recycling of the C&D
• Utilization of waste from trimming
• Power generation ‐ 30MW
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NEW SANITARY LANDFILL
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NEW SANITARY LANDFILL
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RECOVER OF RAIN WATER FOR CLEANING SERVICES
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UTILIZATION OF TREATED WASTEWATER IN THE STREET CLEANING
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ALTERNATIVE EQUIPMENT FOR COLLECTION IN LOW-INCOME COMMUNITIES
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ALTERNATIVE EQUIPMENT FOR COLLECTION ALTERNATIVE EQUIPMENT FOR COLLECTION IN LOWIN LOW--INCOME COMMUNITIESINCOME COMMUNITIES
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ELECTRIC CARSCOLLECTION OF WASTE FROM CLEANSING STREETS
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50,000 GREEN MADE (BIOPLASTIC) CONTAINERS FOR HOUSEHOLD COLLECTION
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URBAN EQUIPMENT MADE OUT OF PLASTIC WOOD
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URBAN EQUIPMENT MADE OUT OF PLASTIC WOODURBAN EQUIPMENT MADE OUT OF PLASTIC WOOD
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WASTE IS ALSO CULTURE
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For more information onEnvironment and Solid Waste Management:
http://www.rio.rj.gov.br/web/comlurb/
www.web-resol.org