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costo del incinerador de cremación de mascotas
Alimentación intermitente (con cargador opcional): 0,9 yd3 / h (0,7 m3 / h) hasta 8 horas / día
Especificaciones: Longitud total del sistema por lotes de -9′-6 ″ (2896 mm) sin cargador
18′-6 ″ (5639 mm) con sistema de carga opcional Ancho total -7′-6 ″ (2820 mm)
Altura (sin pila) -10′-0 ″ (3048 mm) Aprox. Peso: 14.000 libras. (6364 kg) sin
Cargador
- La concentración media de dioxinas y furanos en las emisiones no debe superar los 80 ng / m3 de dioxinas y furanos totales.
si se mide durante un período de 6 a 16 horas.
Nota:
Todas las concentraciones de contaminantes deben expresarse a Oo C y 1.013 x 10 5 N / m2, gas seco y corrección de 11% de oxígeno.
La corrección de oxígeno se calcula como:
Es = 21 – Os x EM
21 – OM
Donde: Es = Concentración de emisión calculada al porcentaje estándar de concentración de oxígeno
EM = concentración de emisión medida
Os = concentración de oxígeno estándar
OM = concentración de oxígeno medida
10 Operación 1. Los materiales destinados a la incineración deben ser de origen y composición conocidos y deben
incinerarse únicamente en un horno que esté registrado para el tipo particular de residuo.
- Se debe mantener un registro de la cantidad, tipo y origen de los residuos a incinerar.
- El incinerador debe precalentarse a la temperatura de trabajo antes de cargar cualquier residuo.
- No se debe sobrecargar el incinerador.
- El incinerador debe estar en buenas condiciones de funcionamiento en todo momento y no debe usarse si falla algún componente. Alguna
el mal funcionamiento debe registrarse en un libro de registro y notificarse a la autoridad competente.
- El operador del incinerador y todo el personal relevante deben estar capacitados de manera que satisfaga el control correspondiente.
autoridad.
11 Limpieza El sitio donde se construye el incinerador debe:
- Tener agua corriente.
- Tenga un piso sólido.
- Tener iluminación si funciona las 24 horas.
- Tenga las cenizas volantes en contenedores y almacenamiento antes de su eliminación.
12 Salud y seguridad (equipo de protección) 1. El personal que manipula los desechos debe estar bien capacitado en el manejo seguro de
Desechos peligrosos
- El personal debe contar con el equipo de protección adecuado, como máscara de gas, delantales, botas de goma, cascos, guantes,
gafas de protección.
- Deben proporcionarse señales de precaución y advertencia.
- Se debe proporcionar equipo de extinción de incendios.
- No se debe fumar ni comer en el sitio.
);
Incinérateur de déchets médicaux à Atmosphere contrôlé conçu pour l'incinération des déchets biomédicaux
Volume de la chambre de combustion (m3) 8,80 m3
Taux de combustion * jusqu’à 1500 kg par heure
Consommation moyenne de carburant 65 kg par heure ou plus (7 brûleurs diesel)
Température opérationnelle 850 à 1320 ° C
Rétention de gaz dans la chambre secondaire Grande chambre secondaire
Surveillance de la température Oui
Résidus de cendres moyen (%) 3%
Dispositif thermostatique Oui
Réservoir de fumée diesel 1000l
Laveur de gaz Venture
Système d’alimentation hydraulique de bélier
Grand incinérateur à moteur diesel
Spécification minimale requise
Normes
hot medical waste disposing machine, Operation Condition: 8-16 hr/ day
Control: Built-in data recording
Operating temperature: Incinerator
/Primary Combustion Chamber
Primary Chamber: 900 – 1200 0C
Type: continuous loading, Top Loading
Capacity/Burn rate per hour: 250 -300 kg/hr
Material:
External- 3 layers
Internal lining: a fire proof material of pre-fired refractory bricks with Aluminium lining, resistant to corrosive waste or gas and to thermal shock
Secondary
Combustion
Chamber:
Type: horizontal/vertical
Temperature: 1200- 1300 oC
Residence time of gases : >2 seconds
Ash Residue: <5% of original waste size
Ash Handling System: Both Automatic and manual removal of Ash. Must ensure removal/treatment of hazardous remnants of ash
Flue gas treatment system : Capable of treating the flow of flue gas as the incinerator is operating at its maximum capacity
Auxiliary device: Water level gauge, pressure sensor, PH sensor..etc
Auxiliary device: Fuel cut-off device
Waste feeding mechanism: Automatic pneumatic/hydraulic waste loading system or conveyor belt , capacity 650-800 L at a time
Chimney (Stack):
Type: Vertical type
height:>7 meter’
Material: Fireproof cast, stainless steel
OUTPUT:
GAS- SMOKELESS,ODORLESS
ASH -Max <5% of original waste size
Reduction of Pollutant gas SO2, HCL, HF and line particulate
Emission standard:
WHO/ European
Test report for emission testing provided?
Heat exchange mode: Automatic
Accessories:
All standard accessories for incinerator, including but not limited to loading system, heat exchangers, pollution control system, ash removal system, including ladder and oil tanker (2500litre capacity).
Operating Environment:
The incinerator is capable to operate at the altitude of 2400mt above sea level. (according to the site conditions)
Power Requirement:
220 Vac single phase or 380 Vac three phase 4 wire system 50HZ
Installation Testing and Commissioning : to be conducted by certified or qualified personnel.
Supplier shall provide the following documentation
User (Operating) manual in English.
Service (Technical / Maintenance) manual in English.
Certificate of calibration and inspection from factory.
Fast moving spare parts: Supplier is able to provide fast moving spare parts with quantities as described in the price schedule or their equivalent.
Training: Supplier is able to provide training on operation, management and maintenance of incinerators.
Warranty
Comprehensive warranty for minimum 2 year.
Maintenance Service during Warranty Period
During warranty period supplier must ensure, corrective/breakdown maintenance whenever required.
Supplier has a local agent or branch office in Ethiopia (please indicate the name and contact details of the agent)
Supplier provides labor, lifting equipment and tools needed for the installation, testing and commissioning of the incinerator. The supplier will be responsible for the safety of its staff, workers and laborers during the installation, testing & commisssioning
Able to provides all necessary information that would be used as an input for preparation of floor (platform) and room for the incinerator to be supplied such as the following;
Lay outs (drawings) and pictures of the incinerators to be installed
Length, width and height of incinerator,
Area (length x width) for the floor (platform) and Length, width and height for roofing, for each type of incinerators to be installed
Needs during the transport, installation, assembly, commissioning and operation of the equipment in terms of access points, available space to operate (inside and outside of the room), ways to get to the site where the equipment will be placed or any others. ;
Technical Specifications (fuel consumption rate, weight, anchoring system, support points, etc.);
Chimney specifications to be used for the roof design ( size, support needs, insulation);
Considerations related to operation and Maintenance, for e.g., minimum available area to perform routine maintenance tasks and replacement of key parts that need to be changed more frequently;
Any consideration/need of the incinerator while being operated that might impact the design of the room/shelter where it will be placed.
Other important information to be considered that can influence or impact the designing and building processes of the infrastructure for the incinerators, for example area dimension for other accessary parts like fuel tanker storage, if applicable, etc….
Delivery time (DAP, Addis Ababa) in weeks
Name of manufacturer including website of the manufacturer &/ supplier & country of origin
Burnaby garbage incinerator operator sued over pollution concerns
The Greater Vancouver Sewerage and Drainage District is suing Maxxam Analytics International Corp. and Covanta Burnaby Renewable Energy ULC for allegedly failing to properly Examine fly ash samples from the district’s waste-to-energy facility in Burnaby.
The district filed a notice of civil claim in BC Supreme Court on October 16. Covanta, according to the claim, operates the incinerator plant under contract with the district, and the facility generates fly ash that must be treated before leaving the plant and tested monthly to ensure compliance with hazardous waste regulations.
Non-hazardous fly ash is taken and disposed of at the Cache Creek landfill, the claim says. Samples analyzed by Maxxam in the summer and fall of 2012, however, came back indicating high levels of cadmium that exceeded acceptable levels allowed for disposal at the landfill.
The results, the district claims,”called into question the efficacy of the treatment of fly ash” at the facility, forcing the plaintiff to incur costs by requiring more sampling and testing, investigating the cause of the high cadmium levels and finding an alternate disposal site for fly ash in Alberta. Following the Ministry of Environment hit the district with an advisory letter of non-compliance, the plaintiff hired”consultants, experts and legal counsel” to help investigate.
An audit of Maxxam’s lab found that it did not follow appropriate techniques, called the”Toxic Characteristic Leaching Procedure” and the”United States Environmental Protection Agency Method 1311″ to test the fly ash, according to the lawsuit. The Ministry of Environment’s evaluation found Maxxam’s results unreliable due to improper testing procedures and found that”Covanta’s quality control and quality assurance protocols at the WTEF [Waste-to-Energy Facility] were not adequately developed to determine if leachability was happening or if a problem with the treated fly ash or the treatment system was happening,” the claim states. In addition, the ministry found that Covanta could not readily”provide assurance that the treated fly ash met the hazardous waste requirements under the Hazardous Waste Regulation.”
The district seeks damages for negligence, misrepresentation, negligent performance of an agency and breach of contract.
Hazardous situation: Incinerators at K-P’s major hospitals out of order
PESHAWAR:
Based on data collected by the Environmental Protection Agency (EPA), 15 to 20 tons of hospital waste is generated every day in the provincial capital alone. Almost half of the complete waste is recycled while the rest is collected by the Peshawar Development Authority (PDA).
LRH
“To be honest, we have one incinerator which is not in proper working condition and hardly disposes a quarter of the whole waste generated,” said an official at Lady Reading Hospital while requesting anonymity. “But we have a new incinerator which will soon be functional.”
The official, who didn’t know the exact amount of the waste created, stated LRH was one of the well-equipped hospitals throughout the country. It’s over 5,000 people (at least 3,000 in outpatient and 2,000 in accident and emergency departments) from throughout the state on a daily basis.
“The incinerator under procedure has some difficulties as a few of its components are yet to be obtained,” said the official. “It also needs adequate gas–another significant problem–but we are in contact with Sui Northern Gas Pipeline Limited (SNGPL).”
The LRH official added the source of gas to the hospital isn’t enough for sterilisation. He said the hospital administration is connected with SNGPL authorities and the issue will soon be resolved.
HMC
Hayatabad Medical Complex (HMC) Chief Executive Dr Mumtaz Marwat said the incinerator at HMC is out of order but it does burn off some waste.
Khyber Teaching Hospital (KTH) Chief Executive Dr Inayat Shah Roghani said the incinerator at KTH was functioning correctly and recycles over 200 kilogrammes of waste per hour.
“Along with all the solid waste generated by KTH, we also recycle waste that comes from a few private hospitals in University Town,” stated Roghani.
The EPA has already sent a written notice to the health directorate, asking it to properly dispose of medical waste as mentioned under Hospital Waste Management Rules 2005. These state the responsibility of waste management lies solely with the institute which created it.
What happens next