The other day in the waste incineration plant


Recently a dream came true for me. I had the opportunity to participate in a guided tour through the waste incineration plant in Cologne. That may seem strange. Sometimes I catch myself when I get stuck on documentary programs about recycling methods in the (rare) zapping through the TV channels. Obviously this topic fascinates me.

The BVMW (Federal Association of Medium-Sized Enterprises) invited to a lecture on the topic of generation Y. Host and the venue was the waste recycling company in Cologne, AVG, which offered additionally a guided tour through their waste incinerator. Since I am also very interested in the topic Generation Y, I could kill two birds with one stone.
In a small group, we were led by the spokesman of the AVG through the various sections of the waste incineration plant and the procedures were explained in detail. Initially skeptical, because in previous years there was so much negative about this facility (excessive construction costs, lack of capacity), the mood among the participants changed gradually into fascination.

To clarify: It’s just about waste. Not about recycle materials such as paper, plastics, recycled glass or compostable organic waste.

Precision and cleanliness

What I noticed during the tour: In the plant, each step is carefully considered, it is worked with great precision. And even if that sounds paradoxical: it is squeaky clean! Only in the hall where different wastes are mixed on conveyor belts, there is the typical smell of rubbish, but also not as bad as originally expected.

Amazing for me: I did not know that by using residual waste a really large amount of power is generated. And reassuring for me: resources are won even from the last drop: metal, material for road construction, plaster in good quality. The proportion of what is factually left and actually not recycled, seems negligible to low.

From waste to electricity – the process in detail

The residual waste incinerator in Cologne was put into operation in 1998 and is one of the most modern and best facilities in the world. It processes what has landed in the residual waste after the separate collection of private households, as well as the remains of sorting from mixed building and industrial waste.

Much of the waste is shipped by rail. The railway containers are loaded in two waste transfer stations in the city of Cologne and together have a capacity of approximately 250,000 tons per year. The remaining waste is brought by truck.
A special feature of the Cologne residual waste incinerator is the integrated treatment of the waste in a treatment room. Residues from sorting and residues from the domestic and bulky waste are first distributed to the daily waste bunker on separate chambers. The bulky waste is pre-sorted and crushed. Only the non-recoverable components are processed in the incinerator.

The household waste is sorted in a perforated drum to size and then passes on large conveyor belts so-called magnetic seperators. They remove ferrous scrap. A second ferrous metal deposition as well as an automatic non-ferrous deposition take place after combustion.

Even commercial waste residuals are delivered to the Cologne plant. They have been processed previously in external sorting, so they can be added directly to the domestic and bulky waste. The various waste streams are mixed thoroughly, because this homogenization ensures a high quality, a uniform as possible burnout and a good quality ash.
From the huge hall of the conveyor belts the waste enters the so-called residual waste bunker. Here it is stored a while until enough moisture has dissipated, so that it can burn well. By means of permanent temperature and humidity indicators it is controlled, in what condition the waste is. With large gripping cranes the waste is rearranged and finally placed in the kiln. The garbage gripper fill four huge funnels. The waste comes from here in four independently powered boilers that operate around the clock. The waste moves on roller grates through the boiler. And there it burns. At an unimaginable heat of 1,000 to 1,500 degrees Celsius. The respective “new” waste ignites from the already burning garbage. So no additional external energy is required for the combustion process. The combustion takes place after the DC principle: The burning of waste and the waste gases move in the same direction through the “hot flame” at the end of the grate. This procedure ensures that the destruction of pollutants such as dioxins and furans are already done in the combustion chamber.

From waste is made power for 250,000 people

And here is the highlight. The heat produced during combustion is used. On the one hand, to heat the nearby Ford plant. But this is just a nice side effect. The majority of the heat is converted into electricity by generators. And even that much that the power consumption of 250,000 people can be met. The waste incineration plant Cologne is thus basically a power plant and supplies a quarter of the city of Cologne with electricity. That sounds awesome. And since you could get the idea that it is not so bad when so much garbage is produced – as it is used so well …

After combustion bottom ash, hot exhaust gas and residues remain. These substances are largely used again useful: The ash is cooled with water and stored in an ash bunker before it is processed in a bottom ash treatment plant and then utilized in road, landfill and landscaping.
The hot exhaust gas is used for power generation. It heats preheated water to steam, which meets at a temperature of 400 degrees Celsius and a pressure of 40 bar to a turbine. This drives the downstream generator with which is produced electric power. For own use only a small part of the energy is needed. The greater part is given in external power supply networks. The amount of energy generated in the incinerator is enough to power more than 100,000 households.

In the combustion and the subsequent exhaust gas purification residual substances such as dust and salts remain as well as ashes from the boiler. These materials are collected and used as backfill material for the backfilling of salt mine tunnels. Gypsum is also a waste material, which is obtained as a reaction product in the exhaust gas purification and has building material quality.

Emission control: the exhaust gases are almost completely neutralized by the method used at the Cologne incinerator. There is no waste water, as well as the legal requirements are clearly undercut. As a neutral auditor, the county government gets the actual exhaust gas readings permanently by direct line.

Rethinking at waste management companies

After the guided tour, I had the opportunity to talk to the press officer of AVG. In this conversation it became clear how much the thinking has changed in the field of waste management in recent decades and years. While during the 1960s to the 1990s garbage was piled up completely unsorted in landfills and then forgotten, in the new millennium they have recognized the value of the waste. Climate change and CO2 emissions have long pushed as important issues in focus for the residual waste processing. The heat generated during combustion is converted into electricity. Resources are regained, as far as is technically possible. Especially metal, plastics and wood. The recovered plastic from residual waste is used for example as fuel for cement plants.

Waste incineration plant are nowadays equatable to power plants, even if the fuel value is not quite equivalent to the conventional fuels such as coal, oil and gas. As more and more municipalities have come to generate their own electricity by means of residual waste incineration, the major electricity providers get in significant difficulties.

At the end of the tour I was really impressed. That what is put in the residual waste in private households plus the commercial waste is, after all, still god to supply 100,000 households with electricity in Cologne.

And at the same time it’s scary, what incredible tonnes of waste we produce. Yellow and blue ton even come on top of that.

Consumer society provides garbage

Waste incineration plants generating electricity for us and making us less dependent on fossil fuels, are the logical consequence of our consumer society. But incinerators are not built primarily to generate electricity. But to become master of the mountains of waste that we produce continuously as a consumer society. Fortunately, with modern incinerators, a way has been found to make up the stinking problem a clean thing. But the cause, our consumption, is the real problem.

For the operators of the incineration plant, it is essential that enough waste is delivered. Garbage is their product. The more they can get, the better for the system’s capacity. For then it will work cost-effectively, which in turn has a positive impact on the urban garbage fees. Not all incinerators in Germany are so well utilized as in Cologne. Since waste is added from adjacent areas.

But the consumer society provides these masses of garbage. Goods are produced in large quantities, purchased, used or consumed and eventually discarded. The 2aste incineration plant gets food – in 2013 there were 707,000 tons in Cologne. And provides us even with power (282 million kWh in 2013 in Cologne). Actually a perfect cycle, so one might think. If not for this “but” would be. Because our conventional consumption goes at the expense of other countries, to the detriment of the environment, fair working conditions; Resources are wasted, the transport around the globe has impact on the climate, production facilities in the Far East poison the local environment and so on.

Well, I live in Cologne, a big city, where certainly only a small proportion of residents think about trash, disposal or even waste reduction and also practice this. That may be a negative point of view, but I think it is realistic. The average normal citizen does not necessarily ask the question what is actually happening to what he throws away in the course of a year. All the more it is interesting to follow the different paths. My next wish is to visit a recycling plant for plastics.

Waste incineration and waste seperation versus waste prevention

Waste separation was yesterday. The latest approach is waste prevention. In its most distinct version it is called Zero Waste. No waste. So far there are only a few pioneers, whose reports and videos I read and watch with interest. And at the same time I wonder how to implement this in a normal big-city life. It starts with the fact that – even if you use a togo box, which is compostable, then you do not know where to dispose of it along the way. So take it home and put it in the compost bin? Would everybody do that?

I think it’s great if it is possible, to be master of the situation (immense amounts of waste) through a well organized disposal system and beyond even to convert this residual waste to a large extent into energy, ie electricity and heating. There is at least a huge improvement as against the stinking landfill from earlier, in which everything was thrown into a pile and then covered with the cloak of silence. The next step must be, to reduce the amount of waste in total. And this will not be possible just by the civil society. Here politics and economy are asked to create the right framework and to set the practical implementation in motion.

by: http://blog.upcycling-markt.de/en/blog/muellverbrennungsanlange-waste-incineration-plant.html


What are the key products of incineration process


Items/Model

TS800

Picture

 

Principle

Animal Waste Incineration Treatment

Burn Rate

Average 300-450 kg/hour

Feed Capacity

Average 1200kg/feeding

Control Mode

Electric Control

Combustion Chamber

3000Liter

Internal Dimensions

300*100*100 cm

Secondary Chamber

***

Feed Mode

Manual/Forklift

Voltage

220V/380V

Power

5.0Kw

Oil Consumption (kg/hour)

***waste to Power plants cost

Gas Consumption (m3/hour)

Ave.22.8m3n/hr

Temperature Monitor

Digital Display

Temperature Protection

Yes

Oil Tank

***

Feed Door

200x100cm(Electric Opening)

Chimney

3Meter

Chimney Sort

Stainless Steel

1st.

Three Combustion Chambers(Optional)

3 Ranked for high risk waste

Pet Cremation Equipment

For Pet(small/big) Cremation Business

Animal Incineration Equipment

For additional creature incineration

what would be the main products of incineration process

Maximum load of the camera (kg)


Phone: +86-13813931455(whatsapp/wechat)
Website: http://www.hiclover.com/ 

1200

Nanjing Clover Medical Technology Co.,Ltd.

1200kgs

Overall dimensions (without burner), (mm)

2823x1970x1724

500x220x190cm(without chimney)

2823x1970x1724 room Volume, m3

2.5 m3

300*100*100 cm, 3.0m3

EXT.main camera size

(d)2392x (b)1140

???

Size of loading opening, (mm)

(W)1152x (l)1425

W.1000*L.2000mm

Combustion temperature (C0)

650° – 1100°

800℃–1200℃

Weight (kg)

4500

7000kg

Weight of residues after combustion (kg)

no more than 5 percent

no more than 5 percent

Opening the hatch using a winch

accessibility

power-driven

The method of loading

the vertical

Top Feeding Door

Burners

Gas burners

Gas burners

Fire-resistant gasket,why is medical waste an issue

Z-blok fire-resistant gasket

Fire Brick and Refractory castable

Pipe dimensions (diameter, length) (mm)

1420×3000

???

Benefits of fire-resistant gaskets

Yes

yes

Temperature properties of the gasket (C0)

1650°

1700°C

Lining layer (fireclay brick)(mm)

114

114mm

Temperature properties of the liner (C0)

1650°

1700°C

burner gas (m3 / h)

9.9-17 m3 / h

22.8m3n/h max.

Burn rate (kg / h)

300-450

300-450

Electricity (volts/Hz)

220/50 Hz

220/50 Hz

Auto-ignition

Auto-ignition Yes

Auto-ignitio

Temperature sensor

accessibility

accessibility

Automatic control panel

the presence of

yes

Burn time at full load (hour)

4-8h

yes

Compliance of MPV and MPC emissions

contrasts to

China Standard

Painting

heat-resistant enamel

yes

Items/Model

TS100(PLC)

TS150(PLC)

TS300(PLC)

TS500(PLC)

Burn Rate (Typical )

100 kg/hour

150 kg/hour

300 kg/hour

500 kg/hour

Control Mode

PLC Auto.

PLC Auto.

PLC Auto.

PLC Auto.


Combustion Chamber

1200L

1500L

2000L

3000L

Internal Dimensions

120x100x100cm

150x100x100cm

170x120x100cm

210x120x120cm

Secondary Chamber

600L

750L

1000L

1500L

Smoke Filter Chamber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Feed Mode

Manual

Manual

Manual

Manual

Voltage

220V

220V

220V

220V

Electricity

1.38Kw

1.69Kw

2.57Kw

4.88Kw

Diesel Oil Consumption (kg/hour)

Ave.20.4

Ave.24.2

Ave.33

Ave.44

Natural Gas Consumption (m3n/hour)

Ave.24.5

Ave.29

Ave.39.6

Ave.52.8

Infection Monitor

Yes

Yes

Yes

Yes

Temperature Protection

Yes

Yes

Yes

Yes

Oil Tank

200L

300L

500L

500L

Chimney

10Meter

10Meter

14Meter

14Meter

Chimney Type

Stainless Steel

Stainless Steel

Stainless Steel

Stainless Steel

1st. Chamber Temperature

800℃–1000℃

800℃–1000℃

800℃–1000℃

800℃–1000℃

2nd. Chamber Temperature

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

Residency Time

2.0 Sec.

2.0 Sec.

2.0 Sec.

2.0 Sec.

Gross Weight

6000kg

8500kg

11000kg

16000kg

External Dimensions

260x150x180cm

300x160x190cm

400x210x300cm

450x210x300cm

2021-02-23

Gross Weight

6000kg

8500kg

11000kg

16000kg

External Dimensions

260x150x180cm

300x160x190cm

400x210x300cm

450x210x300cm



A heat exchanger to pre-heat air destined for the primary chamber is not compulsory but recommended.
The combustion air systems and fans shall be designed to ensure high combustion efficiency and avoid a reducing (corrosive) atmosphere, incomplete burnout of the flue gases and related problems. It should also be possible to heat the primary air from 10°C to approximately 145°C, depending on the waste composition and moisture content.
“The incinerator shall be designed and equipped to be installed, commissioned and operated in such a way as to prevent emissions into the air giving rise to significant ground-level air pollution; in particular, exhaust gases shall be discharged in a controlled fashion by means of a stack the height of which is calculated in such a way as to safeguard human health and the environment.
 CE Certification Pass

HICLOVER Solution for Fighting COVID-19 with CE Certification.
 
1. Medical Waste Incinerator(Containerized Mobile Incinerator|Top Loading Incinerator)
 
2. Auto Roll Air Filter for Clean Room

 

2021-02-23


Incinerator for Waste Management Facility and Spare Parts


Items/Model

TS500(PLC)

Picture

 

Principle

Waste Incineration Treatment

Burn Rate

Average 500 kg/hour

Control Mode

PLC(Programmable Logic Controller Incinerator)

Combustion Chamber

2700Liters (2.7m3)

Internal Dimensions

190x120x120cm

Secondary Chamber

1300Liters (1.3m3)

Smoke Filter Chamber

Dry Scrubber Chamber

Feed Mode

Manual

Voltage

220V

Electricity

3.0Kw

Oil Consumption (kg/hour)

Typical 44(DO)

Gas Consumption (m3n/hour)

Typical 53(NG)

Infection Monitor

Digital Display

Temperature Protection

Yes

Oil Tank

400L

Feed Door

90x80cm

Chimney

10Meter

Chimney Type

Stainless Steel

1st.

Gross Weight

15000kg

External Dimensions

400x210x300cm(without chimney)

HICLOVER Incinerator/Parts Range

Main Feature

Medical Waste Incinerators

Phone: +86-13813931455(whatsapp/wechat)

HICLOVER 10-500kgs/Hr.Double Combustion Chambers

Nanjing Clover Medical Technology Co.,Ltd.
Supply. Delivery. Insta llation, Commissioning a nd Maintenance of Industria l Standard Solid Waste lncinerator.CONTRACTOR shall be responsible to supply on-the – shelf industrial solid wast e incinerator and its accessories in the market and/or fabr icate its auxiliary related equipment for comprehensive functionalities. Capac ity 500 kg/ hour {dual chamber inc ineration) electricity from garbage
1.Primary Chamber Destruction of Mater ial (>850°C) .
2.Secondary Hazar dous carcinogenic destroyed).
Chamber Destruction of Gas (>1200°C to ensure induced gases is fully Waste type Compatibility
General Wastes/Industrial Wastes/Bur nable
Wastes/Medic al Wastes/Oily
Sludge/ Contaminated Soil/ Saw Dust.
Fuel type Dual Type (Diesel and Gas)
Secondary Chamber &
A ir Pollution Control (APCS) Capabilities
System Compa ny declaration that the equipment is capa ble to remove VOC’s. CO, No×,Dio×ins
&     Furans     (through     high    temperature f iltration), particulate matter. Heavy Metals (Pb, As, Sb, Cd, 丁I) – Result from an accredited lab.
2.Blac k smoke control technology : Dry scrubber, longer residence time in secondar y c ha mber (to ensure complete combustion, kill virus) .

Single Combustion Chamber

Small, Cheap,10-20kgs/Hr.

Three Combustion Chambers(Optional)

3 Chambers for high risk waste

Pet Cremation Equipment

For Pet(small/big) Cremation Business

Animal Incineration Equipment

For other animal incineration

incinerator design for colleges

Items/Model

TS100(PLC)

TS150(PLC)

TS300(PLC)


TS500(PLC)

Burn Rate (Typical )

100 kg/hour

150 kg/hour

300 kg/hour

500 kg/hour

Control Mode

PLC Auto.

PLC Auto.

PLC Auto.

PLC Auto.

Combustion Chamber

1200L

1500L

2000L

3000L

Internal Dimensions

120x100x100cm

150x100x100cm

170x120x100cm

210x120x120cm

Secondary Chamber

600L

750L

1000L

1500L

Smoke Filter Chamber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Feed Mode

Manual

Manual

Manual

Manual

Voltage

220V

220V

220V

220V

Electricity

1.38Kw

1.69Kw

2.57Kw

4.88Kw

Diesel Oil Consumption (kg/hour)

Ave.20.4

Ave.24.2

Ave.33

Ave.44

Natural Gas Consumption (m3n/hour)

Ave.24.5

Ave.29

Ave.39.6

Ave.52.8

Infection Monitor

Yes

Yes

Yes

Yes

Temperature Protection

Yes

Yes

Yes

Yes

Oil Tank

200L

300L

500L

500L

Chimney

10Meter

10Meter

14Meter

14Meter

Chimney Type

Stainless Steel

Stainless Steel

Stainless Steel

Stainless Steel

1st. Chamber Temperature

800℃–1000℃

800℃–1000℃

800℃–1000℃

800℃–1000℃

2nd. Chamber Temperature

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

Residency Time

2.0 Sec.

2.0 Sec.

2.0 Sec.

2.0 Sec.

Gross Weight

6000kg

8500kg

11000kg

16000kg

External Dimensions

260x150x180cm

300x160x190cm

400x210x300cm

450x210x300cm


microwave irradiation of biomedical waste

 CE Certification Pass

HICLOVER Solution for Fighting COVID-19 with CE Certification.
 
1. Medical Waste Incinerator(Containerized Mobile Incinerator|Top Loading Incinerator)
 
2. Auto Roll Air Filter for Clean Room

2021-02-23

 

2021-02-23


MEDICAL WASTE INCINERATOR



Phone: +86-13813931455(whatsapp/wechat)
Website: http://www.hiclover.com/ 

Nanjing Clover Medical Technology Co.,Ltd.
1. Incinerator 10kg per hr
2. Incinerator 20kg per hr
3. Incinerator 50kg per hr
4. Incinerator 100kg per hr
5. INDOOR INCINERATOR

2021-02-23

Three Combustion Chambers(Optional)

3 Chambers for high risk waste

Pet Cremation Equipment

For Pet(small/big) Cremation Business

Animal Incineration Equipment

For other creature incineration

medical waste disposal methods

Items/Model

TS100(PLC)

TS150(PLC)

TS300(PLC)


TS500(PLC)

Burn Rate (Average)

100 kg/hour

150 kg/hour

300 kg/hour

500 kg/hour

Control Mode

PLC Auto.

PLC Auto.

PLC Auto.

PLC Auto.

Combustion Chamber

1200L

1500L

2000L

3000L

Internal Dimensions

120x100x100cm

150x100x100cm

170x120x100cm

210x120x120cm

Secondary Chamber

600L

750L

1000L

1500L

Smoke Filter Chamber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Feed Mode

Manual

Manual

Manual

Manual

Voltage

220V

220V

220V

220V

Power

1.38Kw

1.69Kw

2.57Kw

4.88Kw

Diesel Oil Consumption (kg/hour)

Ave.20.4

Ave.24.2

Ave.33

Ave.44

Natural Gas Consumption (m3n/hour)

Ave.24.5

Ave.29

Ave.39.6

Ave.52.8

Temperature Monitor

Yes

Yes

Yes

Yes

Temperature Protection

Yes

Yes

Yes

Yes

Oil Tank

200L

300L

500L

500L

Chimney

10Meter

10Meter

14Meter

14Meter

Chimney Type

Stainless Steel

Stainless Steel

Stainless Steel

Stainless Steel

1st. Chamber Temperature

800℃–1000℃

800℃–1000℃

800℃–1000℃

800℃–1000℃

2nd. Chamber Temperature

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

Residency Time

2.0 Sec.

2.0 Sec.

2.0 Sec.

2.0 Sec.

Gross Weight

6000kg

8500kg

11000kg

16000kg

External Dimensions

260x150x180cm

300x160x190cm

400x210x300cm

450x210x300cm

The manufacturer should permanently mark on the incinerator signaling: (I) manufacturer’s name or trademark (ii) design, type, model or, date of manufacture of the incinerator (iii) capacity concerning net designed heat discharge in heat units per timed period (i.e., British Thermal Units per hour, mega joules per hour, kilocalories per hour).

All electric connections attached with all the incinerator and other machines ought to be provided with appropriate and necessary security devices and be protected by metal conduits, cable fittings, and also supports.
• A first aid kit, appropriate for addressing the hazards presented by the device.
• Any other consumables considered necessary from the Supplier.
• Lubricants as suitable.
• Operating logbooks.

450x210x300cm

PORT SUDAN


 CE Certification Pass

HICLOVER Solution for Fighting COVID-19 with CE Certification.
 
1. Medical Waste Incinerator(Containerized Mobile Incinerator|Top Loading Incinerator)
 
2. Auto Roll Air Filter for Clean Room

All electrical connections attached with the incinerator and other machinery should be provided with suitable and necessary safety devices and be protected by steel conduits, cable trays, and supports.
The manufacturer should permanently mark on the incinerator indicating: (i) manufacturer’s name or trademark (ii) style, type, model or, date of manufacture of the incinerator (iii) capacity in terms of net designed heat release in heat units per timed period (i.e., British Thermal Units per hour, mega joules per hour, kilocalories per hour).
“The unit shall be supplied with a lockable operations store, that shall be initially supplied with the following consumables:
• A first aid kit, suitable for addressing the hazards presented by the unit.
• 5 full sets of personal protective clothing and equipment.
• Operating logbooks.
• Unit cleaning equipment.
• Unit routine maintenance equipment and associated spare parts.
• Lubricants as appropriate.
• 3 Fire extinguishers.
• Any other consumables considered necessary by the Supplier.

 

2021-02-23


Medical waste Control pdf


The Incinerator units shall be designed to last in operation in a tropical environment for a minimum period of 10 years if the specified maintenance schedule is followed. All metal surfaces (except combustion chamber internal fittings) shall be either galvanized, enameled, painted or otherwise treated against atmospheric and process induced corrosion,Medical waste management pdf.
The incinerator combustion chamber(s) should be designed for easy maintenance of all internal parts including the refractory and insulation. Materials used in the individual parts of the incinerator shall be heat resistance and also be protected against oxidation, corrosion, etc.
The incinerator shell shall be made of mild steel with an adequate thickness for small units of between 3-6mm and larger units 5-10 mm depending on the construction part and painted externally with heat resistant aluminum paint suitable to withstand 250° C.  The outside surface temperature of the incinerator casing should not exceed 50° C above ambient temperature and shall include a safety mesh around all hot surfaces. Cold face refractory lining of calcium silicate or superior material, minimum thickness 100 mm.

Three Combustion Chambers(Optional)

3 Ranked for high risk waste

Pet Cremation Equipment

For Pet(small/big) Cremation Business

Animal Incineration Equipment

For other animal incineration

Items/Model

TS100(PLC)

TS150(PLC)

TS300(PLC)

TS500(PLC)


Burn Rate (Average)

100 kg/hour

150 kg/hour

300 kg/hour

500 kg/hour

Control Mode

PLC Auto.

PLC Auto.

PLC Auto.

Combustion Chamber

1200L

1500L

2000L

3000L

Internal Dimensions

120x100x100cm

150x100x100cm

170x120x100cm

210x120x120cm

Secondary Chamber

600L

750L

1000L

1500L

Smoke Filter Chamber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Dry Scrubber

Feed Mode

Manual

Manual

Manual

Manual

Voltage

220V

220V

220V

220V

Power

1.38Kw

1.69Kw

2.57Kw

4.88Kw

Diesel Oil Consumption (kg/hour)

Ave.20.4

Ave.24.2

Ave.33

Ave.44

Natural Gas Consumption (m3n/hour)

Ave.24.5

Ave.29

Ave.39.6

Ave.52.8

Infection Monitor

Yes

Yes

Yes

Yes

Temperature Protection

Yes

Yes

Yes

Yes

Oil Tank

200L

300L

500L

500L

Chimney

10Meter

10Meter

14Meter

14Meter

Chimney Type

Stainless Steel

Stainless Steel

Stainless Steel

Stainless Steel

1st. Chamber Temperature

800℃–1000℃

800℃–1000℃

800℃–1000℃

800℃–1000℃

2nd. Chamber Temperature

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

1000℃-1200℃

Residency Time

2.0 Sec.

2.0 Sec.

2.0 Sec.

2.0 Sec.

Gross Weight

6000kg

8500kg

11000kg

16000kg

External Dimensions

260x150x180cm

300x160x190cm

400x210x300cm

450x210x300cm

2021-02-21

450x210x300cm


All incinerators shall meet the following emission and operating standards:
• Combustion efficiency (C.E.) shall be at least 99.0%
• The combustion efficiency shall be computed as follows:
o C.E = (CO2 X 100) / (%CO2 +%CO)
Suitably designed pollution control devices such as scrubbers, filters or electrostatic precipitators, shall be installed/retrofitted with the incinerator to achieve emission limits.”
“Each unit shall include a complete vertical exhaust and stack system, including the following features:
• Steel construction.
• Refractory lining in the lower section.
• The exit height of the stack shall be not less than a range of 3-12 metres above ground level depending on the capacity of the incinerator unit. 
• The diameter of the stack shall be selected by the Contractor to deliver an exhaust exit velocity of not less than 10 metres per second vertically upwards when at full scale operation.
• An emission stack sampling port shall be included immediately above the secondary chamber.
 CE Certification Pass

HICLOVER Solution for Fighting COVID-19 with CE Certification.
 
1. Medical Waste Incinerator(Containerized Mobile Incinerator|Top Loading Incinerator)
 
2. Auto Roll Air Filter for Clean Room

 

2021-02-21


An Unexpected Ebola Infrastructure Problem: Waste


Patients with this debilitating virus produce 440 gallons of medical waste daily, including instruments, gowns, gloves, body fluids, sheets, mattresses and more. That’s a substantial amount of medical waste in any situation, but it’s especially daunting in this case because it needs to be disposed of extremely cautiously, to avoid the risk of spreading infection. What do you do with a problem like Ebola waste? Because you don’t want to toss it in the garbage.

Somewhat surprisingly, says Bausch, the United States actually faces bigger problems when it comes to safely disposing of Ebola waste, which is simply burned in large pits in Africa: “In the United States, of course, we are somewhat beholden to higher tech solutions, which in some ways are a little bit more problematic in terms of treating all that waste, and we need autoclaves or incinerators that can handle that sort of thing. It’s not the actual inactivation that’s particularly difficult; it’s just the process of getting the waste from, of course, the frontline of care and interaction with the patients safely to the place where it can be incinerated or autoclaved.”

The problem in the United States is ironically compounded by the increased access to medical care, and the higher quality of medical services, available. In the United States, patients are treated by medical teams with access to a huge volume of supplies they use for protection, including masks, gowns, booties, and gloves, along with sanitizers and other tools. Moreover, patients receive extensive medical interventions that generate waste like needles, tubing, medical tape, empty IV bags, and more. The very care that has helped most of the handful of Ebola patients in the United States conquer the disease has contributed to the huge amount of waste generated, highlighting a critical hole in U.S. medical infrastructure — while African hospitals may have lacked the supplies and personnel needed to supply aid to Ebola patients, they’re at least prepared to handle the waste.

The CDC just issued guidelines to help clinicians and administrators decide upon how to handle Ebola waste, but The New York Times notes that many facilities don’t have the autoclave, and incinerator, capacity to handle medical waste on this scale. Some states prohibit the burning of medical waste altogether, or have barred incineration of Ebola waste, leading to the transport of waste across state borders to facilities that can handle it, which poses its own risks; with every mile added to transport, there’s a greater risk of spreading disease to previously unexposed communities.

Surprisingly, defenders of burning the waste come from surprising corners. Environmentals like Allen Hershkowitz, National Resources Defense Council senior scientist, point out that: “There’s no pollutant that’s going to come out of a waste incinerator that’s more dangerous than the Ebola virus. When you’re dealing with pathogenic and biological hazards, sometimes the safest thing to do is combustion.”

The argument in defense of incineration can be bolstered by the fact that medical waste companies specialize in high-efficiency incineration with equipment designed to minimize and trap byproducts of combustion, reducing overall pollution considerably. Fears about Ebola, rather than genuine environmental or public health concerns, are driving the decision to push against incineration of ebola waste in many regions, but eventually, the United States is going to have to face facts: The mounting waste that accumulates in facilities where Ebola patients receive treatments needs to be disposed of safely, and promptly.

 

by: http://www.care2.com/causes/an-unexpected-ebola-infrastructure-problem-waste.html


Incineration plant System of 150kg/hr on LPG


Incineration plant machine of 150kg/hr On Lpg

Items/Model

TS150(PLC)

Picture

 

Principle

Medical Waste Incineration Treatment

Burn Rate

Average 150 kg/hour

Control Mode

PLC(Programmable Logic Controller Incinerator)

Combustion Chamber

1500L

Internal Dimensions

150x100x100cm

Secondary Chamber

750L

Smoke Filter Chamber

Yes

Feed Mode

Manual

Voltage

220V

Power

0.9Kw

Oil Infection (kg/hour)

Typical 24.2(D.O)

Gas Consumption (m3n/hour)

Typical 21.3(LPG)

Infection Monitor

Digital Display

Temperature Protection

Yes

Oil Tank

300L

Feed Door

80x60cm

Chimney

10Meter

Chimney Form

Stainless Steel

1st.

2020-07-09

800℃–1000℃

2nd. Chamber Temperature

1000℃-1200℃

Residency Time


2.0 Sec.

HICLOVER – Medical Environmental, WWW.HICLOVER.COMWaste Incinerators, 
Medical Waste Incinerator,Pet Animal Cremation, Solid Waste Incinerators

HICLOVER Solution for Fighting COVID-19, Medical Waste Incinerator(Containerized Mobile Incinerator)

Gross Weight

8500kg

External Dimensions

Tel:  +86-25-8461 0201   
Mobile: +86-13813931455(whatsapp/wechat)
Website: www.hiclover.com 
Nanjing Clover Medical Technology Co.,Ltd.


300x160x190cm


 


Lab incinerator china manufacturer


performance at low energy intake levels.
Max. Operating Temperature: 1320
Temperature Tracking: YES
Fuel: Oil

Incinerator dual chamber with capacity 1.5 m3/batch or 6 m3/ day, digital thermocontrol range 0‐1200

C, thermocouple, air distribution capacity 10m3/ moment, electricity intake 1.2kWH/ hour, power 3

stage with netral, cooling water sprinkler capability 5L/ moment, completed with refractory (insulation,

castable, ceramic blanket) and PLC

SUPPLY, INSTALLATION AND COMMISSIONING OF WASTE INCINERATOR — TECHNICAL SPECIFICATIONS

The Waste Incinerator was created to burn Type IV of pathological waste and infectious, contaminated “red tote,” surgical

dressings, plastic test apparatus and other wastes.
Pressure blower with modulating air controller generates turbulence and distributes combustion atmosphere to secondary space.
Gas Consumption (ltrs / hr):13
Low energy intake levels
Large counter-balanced fill doorway with electric lockout.
Burner:  2 tsp (main burner and second burner)
Ave Capacity: 60 kg per hour
Capacity (Cubic Mtr): 0.65
Min.
External Dimensions
Automated control system offers preset burn times and closed off.
Programmable digital temperature controls maintain temperature, assuring complete combustion whilst conserving fuel.
Operation
Easy and secure operation
Height Incl. Flue (mm) 7000
General Specifications
Residency Time in Second Chamber: 5 sec
Be required for burnout of final charge.