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Medical Waste Incinerators

Incinerator but the size of chamber > 2000 x >1200 mm. Prepare for burn LIQUID Waste +/- 20 liter/hr.
Fueled by Heavy OIL Burner.waste disposal incinerator, capable of handling both wet and dry garbage.. Which include house hold wastes and dry leaves.
The chamber of the incinerator should be able to hold about 200 – 250 kilogram of waste at a given time. edical Waste Incinerators.
The mobile unit is our priority then the fixed units. Medical Waste Incinerators. The mobile unit is our priority then the fixed units.
a;  Batch Capacity for each model, how much load can we put in one time. I need tio under stand in term of batch load one time I can ut in Kgs.
b:  Burning capacity per hour, to know how much time it will take to burn one batch and what is cooling timem for each one.
c: How many batch can we put in each day basis per 24 hours.
d: Most of systems will be run on Gas, so I need to know the required pressure of gas in psi to run the system without any problem.
e; I do wish to know an average life of system and after how many years we need the repair of linning etc.

2. What is your minimum capacity and maximum capacity incinerator.

3. You do provide secodn hand incinerator in good working condition.
4. We need only double chamber double burner incinerator.
5. Please send us DEFRA and DADR approval reports by attachment, copy of ISO and summary of gas emmission report from incinerators.

incinerator plant specification

1)  Electricity Supply:
(a) Mains Supply:
(i)  Single Phase supply; 220 – 240V, 50Hz
(ii) Three Phase supply; 380 – 415V, 50Hz
(iii) The power supply outlet (sockets) for single phase supply system in the hospital is three pins and conforms to BS1363.

(b) Fluctuation:
(i)  Mains fluctuation is a common problem, the performance should be affected by this problem a tolerance of ±15% or more in both the nominal voltage should be allowed.
(ii) Mains Cut-off (black out) is a common problem. Where necessary, Uninterrupted Power Supply (UPS) Unit should be included to prevent damage of equipment as a result of sudden disruption in power supply.
(iii)        There are spikes not necessarily from the mains supply but results when certain plants or equipment started.
(iv)        Suppliers should therefore verify to ensure that their power supply units will not be affected by the above conditions.

2)  Water Supply
a)  Quality: the mains supply is hard water. The supplier should check/modify their equipment with filters or descalers where necessary.
b)  Pressure: this is variable and associated with frequent cut off. Where necessary, the supplier should include boosters or pumps to overcome this problem.
c)  Where necessary, suppliers should include water distillers

2-83    Section VI. Requirements

3)  Temperature:  ambient temperature ranges between 21 – 450  C or more in poorly ventilated rooms. The hottest month of the year is March. Environmental temperature can be such that inferior rubber and plastic materials can easily melt or deformed. Bidders must ensure all materials will be able to withstand such temperatures

4)  Humidity: humidity is usually high about 65 – 90%. Electronic units must be protected to prevent the effect of condensation.

5)  Dust: this is a major problem especially during the dry season. Dust get into equipment and clogs up filters. Additional protection must be provided where necessary and where applicable spare filters supplied to last not less than five years continuous use.

6)  Vermin: these are also available and occasionally enter into equipment to chew cables and urinate on boards to cause short circuit. This can be prevented by providing vermin guard where necessary to prevent entry of such destructive animals.
7)  The proposed equipment must conform to the current relevant international standard such as ISO; CE; IEC, ANSI and/or BS

8)  Language:
a)  All labels and markings on the equipment must be in English language. b)  All software programmes in the proposed equipment must be in English
language
c)  All manuals must be in English language.

9)  Each of the equipment supplied must be provided with user and technical manuals. Instructions on their usage, storage and service must be clearly indicated in the manuals and where necessary, on the equipment.

10)Where applicable the following shall apply:
a)  Electrical Safety
i)    The unit should be provided with a line (power) cord of acceptable durability, quality, length, and ampacity and should be secured with adequate strain reliefs.
ii)  The unit should include, or the bidder or supplier should offer, power plugs that are sufficient for the maximum voltage and current of the unit.
iii) The chassis should be grounded and grounding resistance should not exceed 0.15 ohm.
iv) If the unit is double insulated, it should be so labeled.
v)  Electrical leakage current from the chassis of the unit should not exceed
500µA per IEC 601-1 b)  Effects of Fluids

Section VI. Requirements    2-84

i)    Patient and operator safety and system performance should not be adversely affected by fluid spills.
ii)  If the unit is affected, it should fail safely.

c)  Overcurrent Protection
i)    Loss of power to other equipment on the same branch circuit due to internal equipment faults should be prevented by using fuses or circuit breakers that are clearly labeled and easy to replace or reset.
ii)  If fuses are used, a spare fuse should be provided in a labeled holder located next to the main fuse holder. Permanent markings near each fuse holder should indicate fuse ratings.

d)  Line Voltage Variation
i)    The unit should operate satisfactorily at line voltages from -12.5% to +8%
of the nominal line voltage of 220Volts.
ii)  The unit should not be damaged by voltages from -21% to +12.5% of the nominal line voltage of 220Volts.

e)  Electromagnetic Interference (EMI)
i)    The unit’s performance should not be affected by EMI radiated or conducted through the power lines from another device.
ii)  If the unit is affected, it should fail safely.

f)    Alarms
i)    The unit should have visual or audible alarms to warn operators of any system fault that may cause unsafe or erroneous results.
ii)  Audible and/or visual indicators should activate when the display reading reaches and remains at the alarm limit.
iii) All alarms should be fully explained in the operator’s manual.

g)  Audible Alarms
i)    Audible alarms should be distinct and easily identified.
ii)  Audible alarms should be enabled when the unit is turned on (i.e., the default volume should not be set to OFF) and should be clearly audible at any volume setting.
iii) If the alarm volume is adjustable, it should not be possible to turn the volume down so low that it is not likely to be heard.
iv) Although an audible-alarm silence is acceptable, the alarm must recur automatically if the condition is not corrected.
v)  If an alarm is silenced, a visual display should clearly indicate which alarm is disabled.

h)  Visual Alarms
i)    Visual alarms should be easy to identify.

2-85    Section VI. Requirements

ii)  The visual alarm must be specific to the problem and remain on until the alarm condition is corrected; it should not be possible to turn off the visual alarm.

i)    Construction Quality
i)    The unit should have no sharp edges.
ii)  All external components should be securely mounted.
iii) The unit should be secure and provide adequate protection against moving and electrically energized parts.
iv) The unit should be well constructed with durable materials to withstand typical abuse and cleaning.
v)  Switches, knobs, and other controls should be designed for conditions of heavy use.
vi) Wiring and tubing should be neatly arranged and bundled, if appropriate. vii) Mechanical, electric, and pneumatic terminators, connectors, sockets, and
solder joints should be designed to prevent fluid penetration, incorrect connections, and mismating of fitting and couplings.
viii)Connections should be secure to resist accidental disconnection and should maintain sterility, when appropriate.

j)    Controls
i)    The controls (i.e., switches, knobs, etc.) should be visible and clearly identified, and their functions should be self-evident.
ii)  Device design should prevent misinterpretation of displays and control settings.
iii) Switches and controls should be protected against accidental setting changes (e.g., due to someone brushing against the panel).
iv) Controls should be sealed against penetration of liquids.

k)  Labeling
i)    Labels and markings should be clear and legible.
ii)  Labels and markings should be durable enough to withstand routine cleaning and normal wear.
iii) Appropriate warning legends should be provided on the unit.

l)    Ease of Use and maintenance
i)    The unit should be simple to learn to use, operate, and maintain.
ii)  The unit should have abbreviated operating instructions included on or with the unit (e.g., on a laminated card attached to the unit).
iii) The unit should be easy to clean, disinfect, and/or sterilize, as appropriate. iv) The unit should be designed for easy access to serviceable parts.

m) Special maintenance tools, spare-parts and consummables
i)    Where necessary or required, the supplier must include any special tools required for the maintenance of the proposed equipment
ii)  Each equipment must be supplied with the recommended spare-parts

Section VI. Requirements    2-86

required for preventive maintenance for five years and where necessary include stock of recommended spare-parts for corrective maintenance.
n)  Training
i)    The supplier is required to provide adequate training on each equipment on the proper use and operation of the equipment.
ii)  Similarly, suppliers are required to provide adequate manufacturer’s training on the installation and maintenance(both preventive and corrective)
o)  Packaging and Storage Conditions of Equipment
i)    The equipment and components should withstand temperature and humidity extremes likely to be encountered during storage and transport.
ii)  The manufacturer should recommend procedures for storage of the equipment.

medical was incinerators Department of Health

hospital waste management team at a tertiary care hospital ,1250 beeded hsopital .

our daily waste generated from all sources is 0.55kg/bed/day =685kg/day

we need an incinerator of 150kg/hour loading capacity.

plz reply with , buying,installation, running and maintenance cost.incinerators, specifically, medical was incinerators
Department of Health has floated a tender for Incinerator X 1 Unit and the closing date is on 16th June 2011. The specification of the Incinerator is as below:

Specification of Incinerator

1.    Should have preparation, Incineration, Scrubber steps to burn waste completely and waste gas should be non-polluted

2.    Heavy duty steel, heat resistant coating, stainless steel lid, painted tubular steel frame, 2-blowers, axial vane, suitable drum (S/S, thick) for the incinerator must be provided.

3.    Approx. 20 to 25 Kg per batch and the time required for 1 batch not more than 1 hour on average.

4.    Ash should be only 5% of the waste material

5.    Weight of Incinerator – 50-60 Kg

6.    220V AC

7.    Surgical , medical & laboratory waste

8.    B X L X H = 4 feet X 8 feet X 6 feet

9.    1 year warranty

10. ISO Certified

11. Mobile Incinerator

12.  Electric

MUNICIPAL SOLID WASTE INCINERATORS

a specific type to use at a crematorium. Something that allows specifically for ash collection etc.cremation option to the deceased’s family. Is this product suitable, are ashes easily collected etc. a cremator, for pet clinic, could you introduce and all detail of sales, tax, environtment.-Plastic. 500Kg/hr and to be used maximum 6 times, is this means it will provide only 3 tons per day? Noting that project documents requires 10 tons/day
Plastic bottle-
-Rags & oiled
Glass bottles and aluminum-
-Oils
Fat-
Filter, tires, belts
-Chemicals, paint
Household waste-
Municipal incinerators with a 10-metric ton/24-hour capacity, complete with Stacks, control panels and all accessories, complying with 01015 par. 5.16.1
LOT
2.0

Medical incinerator with a 10 kg/hour (15 lbs/hour) capacity shall be constructed on the site, complete with Stacks, control panels and all accessories , complying with 01015 par. 5.16.2
MUNICIPAL SOLID WASTE INCINERATORS

Municipal waste incinerator quantities and capacities shall be designed for 24-hour 7-day-a-week continuous operation.

Incinerators shall be capable of processing both wet and dry material and operating on either diesel fuel, JP-8 fuel,

or waste oil; see Plumbing for fuel storage system requirements. The following shall be provided as a minimum:

Reinforced concrete mounting foundations, feed or charging hoppers (or loaders), primary combustion chambers

with ash cleanout doors, secondary combustion chambers with ash cleanout doors, cyclone air filters (or separators),

and forced air exhaust stacks (or chimneys).

The charging system shall consist of, as a minimum, a hopper for top feeding and mechanically operated hydraulic

charging ram or augur. To prevent warpage or excessive thermal expansion, a charger cooling system using either

air or water shall be provided.

Primary combustion chamber shall be either the rotary- or stationary fixed-hearth (or kiln) type incinerator. Burner

and combustion air controls shall be fully automatic comprising of, as a minimum, electronic ignition and all

necessary interlocks and safety devices to provide safe operation. The chamber and burner shall be designed to

maintain a minimum combustion temperature of at least 700 to 870 C (1300 to 1600 F), but shall not to exceed 980

C (1800 F). The ash-removal system shall consist of the automatic continuous removal of the ash into an ashquench

pit where cooled by water and removed by conveyor.

Secondary combustion chamber shall be either the rotary- or stationary-hearth (or kiln) type incinerator designed to

oxidize (or burn) the organic vapors and gases. Burner and combustion air controls shall be fully automatic

comprising of, as a minimum, electronic ignition and all necessary interlocks and safety devices to provide safe

operation. The chamber and burner shall be designed to maintain a minimum combustion temperature of at least

930 to 980 C (1700 to 1800 F), but shall not to exceed 1150 C (2100 F). The ash-removal system shall consist of, as

a minimum, the direct manual removal into a dry

Cyclone air filters shall be provided to remove the larger particulates. Cyclone air separators may be provided with

powered fans to increase the velocity of the gases inside the cyclone to improve the collection efficiency for smaller

particles.

5.16.2 MEDICAL WASTE INCINERATORS

Medical waste incinerators shall be specifically designed by the manufacturer to dispose of all medical wastes. All units shall be designed for 8 hours

per day of continuous operation and be rated in quantity per hour (i.e. kg/hr or lbs/hr).

Incinerator loading or charging of medical waste shall be batched-fed manually.

Primary combustion chamber shall be the stationary fixed-hearth (or kiln), multiple-chamber, retort type or larger

capacity rotary-hearth (or kiln) type. Burner and combustion air controls shall be fully automatic comprising of, as a

minimum, electronic ignition and all necessary interlocks and safety devices to provide safe operation. The

chamber and burner shall be designed to maintain a minimum combustion temperature of at least 760 to 870 C

(1400 to 1600 F). The ash-removal system shall consist of the automatic continuous removal of the ash into an ashquench

pit where cooled by water and removed by conveyor.

Secondary combustion chamber shall be a solid-walled and -floored, horizontal, refractory-lined cylinder type

incinerator designed to oxidize (or burn) the organic vapors and gases. Burner and combustion air controls shall be

fully automatic comprising of, as a minimum, electronic ignition and all necessary interlocks and safety devices to

provide safe operation. The chamber and burner shall be designed to maintain a minimum combustion temperature

of at least 930 to 1200 C (1700 to 2200 F) with a minimum gas residence (or dwell) time of 2.0 seconds. The ashremoval

system shall consist of, as a minimum, the direct manual removal into a dry collection hopper.

Cyclone air filters shall be provided to remove the larger particulates. Cyclone air separators may be provided with

powered fans to increase the velocity of the gases inside the cyclone to improve the collection efficiency for smaller

particles.

5.16.3 INCINERATOR STACKS (OR CHIMNEYS)

Stack size shall be in accordance with the manufacturer’s recommendations. Stacks shall be the forced-air type and

completely self-supporting and unattached to nearby structures. As a minimum, stack heights shall minimize

downwash of stack emissions due to aerodynamic influences from nearby structures and be calculated in accordance

with DoD 4715.05-G, Overseas Environmental Baseline Guidance Document. Stacks shall be provided with

corrosion-resistant steel weather caps.”

Incinerators

burn between 5000-10000 kg per hour.Mostly waste from crude oil tanks. construction, installation and 6 months maintenance cost including specifications.CMSD for Double Chamber Rotary Klin Type Incinerator (1st Chamber temperatur not less than 850 degree centrigrade & 2nd Chamber Temperature  not less than 1200 c with exhaust pipe 100 meter long with emission gas filtering mechanism ),  Hydroclave (Medical) with anciliary equipments operating parameters : Temperature 250-275 degree feren , Pressure 15-35PSI , Sterilization time 30 minus , Batch capacity -463 kg . two Incinerators for a hospital in VN. The anticipated capacity is approximately 1,000 kg per day.

Incenerator System

burning hazardous waste and chimicals incinerators

3 types of incinerators, which are 10Kgs, 20Kgs and 30Kgs for our Tawfiq Hospital use in Malindi, Kenya. we are an

environmental consulting firm as I’ve mentioned previously, we have already contracted with a French company specialized in

the sale of solid waste incinerators (ATI) and we bought a crematorium for the disposal of solid waste, including $ 180

thousand dollars, and now we want to get into the business of selling waste incinerators animal, and since it does not have an

agent in Saudi Arabia.  The three models you have indicated are based on 24 hour operation. Could you please make suitable

recommendations for 8-10 hour shift each day (including cooling time)? I assume we will need bigger capacity incinerators for

each of the three requirements.I am interested to know more detailed specifications and prices for your SYC-20 incinerator. I

am in the market for a small and easy-to-operate incinerator, however have little to no experience with such items.

installation and construction of SOLID WASTE
MANAGEMENT COMPLEX , for that purpose we need Sixteen (16) ton/day (7,538 kg/day) Capacity Incinerator System.1.5 ton garbage

per day,

required number of units -10 to 25 numbers

Installing different type of waste Management systems preferably Incineration and others for the state Jammu & Kashmir India

manufacturer and exporter of various Incinerator and other products.

Please be noted that we are a leading Bangladeshi business house dealing in various Medical, Surgical, Dental, Hospital

products, Plant and Machinery and so on

Most important is transformer, 220v motor, Temperature thermocouple, Blower of Primary Burner.

base on this portable incinerator,
1. the type of waste it can be use for (treatment).Hospital waste incinerators with reduced or carbon dioxide  CIF khartom –

Sudan

medical waste incinerators models for hospitals of 100-300 bed and 100-1000bed,kindly send price quote of all the YD models

and mode of transaction /delivery to nigeria

incinerator is for use in the hospital for burning hazardous waste and chimicals, minimum Capacity 300 per hour.

The hospital incinerator for use in the clinical waste as required by international environmental management. Minimum 300 Kg

capacity/hr, Fuel fired, refractory lined, chimney and sampling prot. Minimum temperature of 1100 degree Celsius kindly quote

me best price for resale.The best price for resale for the between $7000 to $12000 Usd I already have quotations just need the

best price please. price should be CIF Johannesburg or Durban

incinerators at three facilities to process healthcare waste

a. 2.5 metric tons per day healthcare waste incinerator

b. 1.5 metric tons per day healthcare waste incinerator

c. 300 kg per day healthcare waste incinerator

Our preferred technology is double-chamber incineration, but if you recommend an alternative technology, that is acceptable as well.

We request information on the following for each of the above requirements:

1. Capital cost (delivered cost in Oman)

2. Operation and maintenance costs (per year)

3. Number of operators required

4. Product specifications (sizes, temperatures, residence time, cycle time etc)

5. Other auxiliary equipment that is required or recommended by you

medical waste PYROLYTIC INCINERATOR

TECHNICAL SPECIFICATIONS: PYROLYTIC INCINERATOR

Double Combustion Chamber Containerized Mobile Incinerator Family Pet Dog&Cat Cremation Installation and Commissioning