Archive: May 27, 2021

waste

Ebola: Southport firm leading the fight in global health crisis

May 27, 2021 by hiclover 0 Comments #incinerator, #incinerators, #waste, #waste-incinerator

Sales and marketing manager Paul Niklas said they had more than a hundred orders from global organisations and aid agencies, including the United Nations and the Red Cross.

He also said most of their workforce was dedicated to manufacturing the incinerators.
The larger ones can burn up to 1,000kg of waste an hour, smaller ones up to 400kg per hour.

Mr Niklas said: “We feel very proud of the fact that they have come to us and that we have a product that is part of the solution.

“Because this has to be contained at the source.

“As soon as you start trying to move waste, it can spread further and further.

“Our incinerators burn at 850 degrees Celsius which burns the toxins, then in the second chamber they burn the gases from that at 1,200 degrees so what is coming out of the chimney is clean.

“And our incinerators are mobile, too, so they can be taken to the source.”
Calls for the incinerators started a few months back when the Ebola crisis was just emerging. Since then they have manufactured and sold more than 120 incinerators to be shipped out to West Africa.

“Their engineers usually go out to help with installation but because of the Ebola threat, engineers employed by aid agencies and organisations are being sent to be trained up at the plant in Canning Road Industrial Estate instead.

Mr Niklas added: “They first contacted us when the outbreak began a couple of months ago. But we are geared up for these things, anyway. The last time demand was like this was the Iraq War. We’ve set up a separate plant so when it does happen we can manage it.”

British Army medics were sent to Sierra Leone yesterday as global leaders promised to step up the international community’s efforts to halt the spread of the disease which has so far taken more than 4,000 lives.

Size:  940 x860x2700 mm
Material:  STAINLESS STEEL STACK, REFRACTORY CONCRETE LINING SPECIAL INSULATION MATERIAL
With burner:  15 C 20 KW
Temperature:   PRIMARY CHAMBER = 800°C AND SECONDARY CHAMBER = 850 – 1200° C
Sufficient heat generation for secure and complete combustion 600-800 °C in the first chamber and >1000 °C in the second chamber
Easy transportation on standard EURO-pallets
Constructed in a modular fashion  easy on-site movement and assembly with a minimum of equipment and technical skills;
For the destruction of problematic waste like sharps, amputates and body parts, wet or moist matter;
Off-gas quality: moderate smoke emissions during one quarter of the total incineration time; no visible emission during three quarters. AS PER INTERNATIONAL STANDARDS 
The remaining ash approximately 5-10% in weight and below 1% in volume of the original waste AS PER INTERNATIONAL STANDARDS 
Chimney height at least 5 m above the incinerator 5m ABOVE FROM THE GROUND
Temperature resistance of the lining  at least 1,200 °C
waste

LPG Incinerator

May 27, 2021 by hiclover 0 Comments #waste-incinerator

Basic Info.

Pullution Sources:Solid Waste Processing
Processing Methods:Combustion
Export Markets:Global

Additional Info.

Trademark:clover

Product Description

Items/Model TS10(PLC) TS20(PLC) TS30(PLC) TS50(PLC) TS100(PLC)
Burn Rate 10 kg/hour 20 kg/hour 30 kg/hour 50 kg/hour 100 kg/hour
Feed Capacity 20kg 40kg 60kg 100kg 200 kg
Control Mode PLC PLC PLC PLC PLC
Combustion Chamber 100L 210L 330L 560L 1200L
Internal Dimensions 50x50x40cm 65x65x50cm 75x75x60cm 100x80x70cm 120x100x100cm
Secondary Chamber 50L 110L 180L 280L 600L
Smoke Filter Chamber Yes Yes Yes Yes Yes
Feed Mode Manual Manual Manual Manual Manual
Voltage 220V 220V 220V 220V 220V
Power 0.5Kw 0.5Kw 0.5Kw 0.7Kw 0.7Kw
Oil Consumption (kg/hour) 5.4–12.6 7.8–16.3 10.2–20 12.1–24 14–28
Gas Consumption (m3/hour) 6.2–11.4 8–15.7 9.8–20 9.9–26.1 10–32.2
Temperature Monitor Yes Yes Yes Yes Yes
Temperature Protection Yes Yes Yes Yes Yes
Oil Tank 100L 100L 100L 100L 200L
Feed Door 30x30cm 45x40cm 55x50cm 70x55cm 80x60cm
Chimney 3Meter 3Meter 5Meter 5Meter 10Meter
Chimney Type Stainless Steel Stainless Steel Stainless Steel Stainless Steel Stainless Steel
1st. Chamber Temperature 800–1000 degree 800–1000 degree 800–1000 degree 800–1000 degree 800–1000 degree
2nd. Chamber Temperature 1000-1200 degree 1000-1200 degree 1000-1200 degree 1000-1200 degree 1000-1200 degree
Residency Time 2.0 Sec. 2.0 Sec. 2.0 Sec. 2.0 Sec. 2.0 Sec.
Gross Weight 1500kg 2200kg 3000kg 4500kg 6000kg
External Dimensions 140x90x120cm 160x110x130cm 175x120x140cm 230x130x155cm 260x150x180cm

Principle of the Incinerator Gear is incineration/combustion/burn.

waste

England’s trash generating Danish heat

May 26, 2021 by hiclover 0 Comments #incinerator, #incinerators, #waste, #waste-incinerator

Power in Denmark is increasingly being generated in plants burning waste imported from England. The practice is being called an economical and environmental boon on both sides of the equation.

The AVØ incinerator in Frederikshavn produces heating and power for the area by burning trash from England.

“It is mainly construction waste like pieces of wood, cardboard and plastic from Manchester,” AVØ operations manager Orla Frederiksen told DR Nyheder. “I guess we have 600 tonnes here that provide a good combustible mixture we can then turn into district heating and power.”

Good for the bottom line
The incinerator in Frederikshavn has doubled its imports of the English waste in the past year.

Incinerators in Aalborg and Hjørring are also burning British trash.

“The heating we produce using the waste is cheaper than what we can generate with natural gas,” said AVØ head Tore Vedelsdal. “And the British are interested because they lack incinerators and pay heavy taxes on landfills.”

Good for the environment
Vedelsdal said that the environmental angle works for both countries.

“They save on having to bury the waste and we save on the consumption of natural gas,” he said.

READ MORE: Denmark pays most for electricity

Environmental protection agency Miljøstyrelsen said that last year up to 200,000 tonnes of non-hazardous waste from England was incinerated in Denmark – nearly six percent of the total volume of combustible material used.

by: http://cphpost.dk/news/englands-trash-generating-danish-heat.11398.html

waste

kleine Verbrennungsanlage

May 26, 2021 by hiclover 0 Comments #Deutsche

Verbrennungsanlagen Entsorgungssystem für biologische Abfälle (Verbrennungsanlage)

Die Verbrennungsanlage muss die folgenden Spezifikationen erfüllen:

– Verbrennungsleistung (kW) = 581 +/- 10%

– Verbrennungskapazität (kcal / h) = 500.000 +/- 10%

– max. l / h (bei ca. 50% Wassergehalt) = 100 +/- 10%

Weitere Spezifikationen werden mit der Anfrage zur Verfügung gestellt.

Die Verbrennungsanlage muss vollständig in sich geschlossen sein.

Die Verbrennungsanlage muss ein Bedienfeld für ihren Betrieb enthalten. Auf dem Bedienfeld werden die Kammertemperaturen visuell angezeigt. Diese visuelle Anzeige muss die Verbrennungsanlage und ihre Leistung steuern und überwachen.

Die Zerstörungskapazität im Gewicht muss 60 kg / h betragen.

Es sollte in der Lage sein, mindestens 10 Stunden pro Tag zu arbeiten

Diese Verbrennungsanlage muss in der Lage sein, alle brennbaren Abfälle zu zerstören, die von Krankenhäusern, Privatkliniken, Labors, Instituten usw. erzeugt werden.

Konstruktionsspezifikation: Typen A, B, C, D und E von medizinischen Abfällen

“PYROLYTISCHE” Verbrennung durch Kontrolle der Vergasung von Abfällen.

Die Verbrennungsanlage muss vermeiden, dass während des Ladens schwarzer Rauch und feiner Staub freigesetzt werden.

Es soll in der Lage sein, das Abfallvolumen um 98% zu reduzieren.

Es muss in der Lage sein, die Emission in der zweiten Verbrennung mit einer Gasverweilzeit von mindestens 2 Sekunden zu halten.

Die Verbrennung sollte völlig frei von sichtbarem Rauch und unangenehmen Gerüchen sein.

1.0Der primäre Zündbrenner muss den Abfall auf 850 ° C zünden und abschalten, um Kraftstoff zu sparen.

Die primäre Brennkammer muss aus schwerem Stahlblech bestehen, und die Einheit ist innen mit einer vollständigen Schicht feuerfester Hote-Flächen und einer hocheffizienten Isolierung ausgekleidet.

Der Innendurchmesser des Schornsteins mindestens 😕 400 und seine Höhe: 8 m

Das Volumen der Brennkammer mindestens: 1.200 l

Die Abmessung der Tür zum Laden in cm mindestens: 70 × 70.

Der Brennerbetrieb sollte automatisch ein- und ausgeschaltet sein
Kraftstoff?: Diesel

Der Hersteller muss die erforderlichen Informationen für die bestmögliche Installation bereitstellen

Das Bedienfeld muss über alle geeigneten akustischen und visuellen Alarme verfügen, um einen sicheren Betrieb zu gewährleisten.

Diese Verbrennungsanlage mit „PYROLYTISCHER“ Verbrennung muss Folgendes haben:
1. Eine Brennkammer für Abfälle:
oPerfekt dichte Tür zum manuellen Laden von Abfällen. Das Laden sollte manuell, Batch Load sein
oEin Beleuchtungsbrenner, dessen Verwendung auf die Zündung von Abfällen beschränkt ist.
oFrontage des Ladens mit Türdichtungen an Scharnieren, Rad der Verschlussschraube, flexibler Verbindung und nicht feuerfester Isolierung.
oDie Isolierung der Brennkammer sollte aus feuerfesten Steinen mit einem hohen Aluminiumgehalt und isolierten Ziegeln bestehen, um eine Mindesttemperatur für das äußere Blech zu gewährleisten.
o Zusammensetzung des feuerfesten Materials;

Feuerfester Beton:
. Dicke: ≥ 100 mm
. Natur: 42% Al203
Isolieren Sie in faserigen Platten:
Dicke: ≥75 mm
Natur: Calciumsilikat.
Brenner für die Beleuchtung von Abfällen mit Brennstoff, Standard-Monoblockguss-Führungsflamme, Beleuchtung und Sicherheit der elektronischen Zündung, permanente Belüftung, elektromagnetischer Schleusentor der Regelung und Absperrventil.
Verbrennungsplatte in Carborundum, um das Fixieren von Glas und Schlacken zu vermeiden

Eine Kammer der Nachverbrennung von Gasen
oEin Brenner der Verbrennung von Gasen,
oEine Einspritzvorrichtung für Luft, die eine vollständige Rückverbrennung von Gasen ermöglicht,
oEin Gerät zum Lufteinlass zur Kühlung von Abgasen,
oEine Hülle für die Evakuierung der verbrannten Gase.
oCarcass aus starkem Stahlblech mit Verbindungsunterstützung.
oZusammensetzung des feuerfesten Materials;
Feuerfester Beton:
Dicke: ≥150 mm
Natur: 65% Al203
Isolieren Sie in faseriger Platte:
Dicke: ≥ 85 mm
? Natur: Kalzium
oBrenner mit Brennstoff, Monoblock-Gussführung mit horizontaler Flamme, Beleuchtung und Sicherheit der elektronischen Zündung, permanente Belüftung, elektromagnetischer Schleusentor der Regelung und Absperrventil.
o Eine sekundäre Luftinjektion, um einen perfekten Sauerstoffgehalt sicherzustellen.

Eine Steuerbox, die den gesamten Verbrennungszyklus gewährleistet.

Ventilator:
oElektro-Ventilator, der die Sekundärluft verteilt, wobei die Regulierung des Luftstroms durch Ventile erfolgt und der Steuerung des Automatikzyklus folgt.
Kontrollen und Vorschriften:
Steuerbox wasserdicht gegen Staub, einschließlich:

Ein Leistungsschalter für jeden Motor (Ventilatoren und Brenner).
Ein Timer mit einstellbarer Zeitsteuerung für die Regelung jedes Brenners.
Ein Regler mit digitaler Überwachung der Verbrennungstemperatur.
Ein Regler mit digitaler Überwachung der Temperatur nach der Verbrennung.
Elektrische Box

Die sekundäre Brennkammer muss das Verunreinigungsprodukt zerstören und einer hohen Temperatur (1100 ° C) standhalten.

Prozessfiltersystem: Scruber als optional anzugeben

waste

Pyrolysis Deemed a Viable Alternative to Incinceration

May 26, 2021 by hiclover 0 Comments #incinerator, #incinerators, #waste, #waste-incinerator

Researchers at the University of York have concluded that PyroPure (UK) technology has the potential to transform the way in which hazardous waste is destroyed in clinical environments and say pharmacists, manufacturers and hospitals throughout the UK should consider trialling the system.

The announcement follows a six month Innovate UK-funded Knowledge Transfer Partnership project in which a team of leading scientists from the University’s Environment Department and Centre of Excellence in Mass Spectroscopy confirmed that the system helped to destroy active pharmaceutical ingredients (APIs) found within pharmaceutical waste on-site.

A total of 17 of the most thermally resistant APIs were selected for the trial, which revealed that PyroPure technology destroys over 99 per cent of APIs in 10 of the 17 tested and an average of 94 per cent of the ‘worst case’ pharmaceuticals.

Professor Alistair Boxall of the University’s Environment Department and former member of the DEFRA Hazardous Substances Advisory Committee headed the study. On the future of PyroPure as an alternative to high temperature incineration, he comments:

“There are big concerns over the negative impacts of pharmaceuticals on the natural environment. Inappropriate disposal of pharmaceuticals and emissions from manufacturing sites are thought to be important contributors to these impacts. Our work demonstrates that PyroPure could help reduce the levels of pharmaceuticals in rivers and streams and have big benefits for ecosystem health. The system also provides a range of other environmental and economic benefits that could radically change how waste of this nature is collected and destroyed going forwards. With PyroPure technology, hazardous waste and controlled substances no longer need to be transported across the country to incineration facilities, thus reducing the associated costs, carbon emissions and risks associated with moving waste from its point of origin to its point of disposal.”

Currently in the UK, pharmaceutical wastes are only disposed of in large-scale, high-temperature incinerators, which can be up to 200 miles away from where the waste is generated. The Environment Agency has previously indicated that PyroPure, which relies on pyrolysis, a thermochemical decomposition process using high temperatures and an absence of oxygen, followed by catalytic conversion to clean and convert the gases, could be the first viable alternative to high-temperature incineration for pharmaceutical wastes.

On the trial’s success, Peter Selkirk, PyroPure Ltd’s Executive Chairman, adds: “This is a huge step forward for PyroPure technology and the healthcare sector. For too long now, we have been overly dependent on incineration as the only viable route in which to dispose of hazardous waste. Not only is it expensive but it’s also open to security breaches, particularly when the waste needs to be transported long distances. Now that PyroPure is a proven technology I’m confident that this breakthrough will pave the way for a new approach to waste disposal and irrevocably change the model for waste collection within clinical environments across the world.”

The trial, which formed a Knowledge Transfer Partnership between PyroPure Ltd and the University, also revealed how on-site energy recovery during the PyroPure process is at least 75 per cent compared with 20 per cent for a high-temperature incinerator.

Each PyroPure unit is the size of a chest freezer. The user simply opens the unit’s lid and places the waste within the chamber before initiating the process of pyrolysis to destroy it.

by: http://www.pollutionsolutions-online.com/news/hazardous-waste/20/pyropure_ltd/pyrolysis_deemed_a_viable_alternative_to_incinceration_according_to_uk_university/32282/

Supply, Installation and Commissioning of DIESEL FIRED INCINERATORS
Medical Waste Incinerator, 100 to 120 Kg/hr
Application   For incineration, general and pathological
Capacity    100 C 120 kg/h burn rate
Type Two  combustion chambers type; primary  and Secondary, controlled/forced combustion air type with a flue gas emission scrubbing unit
Operating time                Minimum 8 hours daily
Operating temperature     From 850 0C to 1200 0C, Automatic controlled
Residual Ash                    5 to 10%
Construction Constructed from heavy duty mild or aluminized  steel
Or equal and approved equivalent

Insulation material            Refractory material lining similar or equal to calcium 
Silicate and hot face combination of heavy duty brickwork
Internal Construction        Fixed hearth type complete with gratings, concave bottom and charging door, lined with refractory material
Charging Door                   Suitable for manual loading of wastes and with smooth 
Dear seal equivalent of Ceramic seals with hinges.
Door Lock                          Automatic, Electric type
Ash removal door    Provided, for removing resultant bottom ash leftovers                              from the Primary chamber
Gratings    Provided
Loading Manual loading of waste
Primary Burner                        Fully automatic, with fuel, temperature and speed  controls with ignition system  flame detector                                                         Air fan Complete with safety features, flame failure                                                                    Diesel fired fuel injector type                                               
Flange mounted
Blower   Provided.  3 phase for supplying excess combustion air through the distribution system with speed control system
Temperature Minimum exit 850 0C
Observation port To be provided with protective glass type
     3.3    Secondary chamber
waste

Incinerator Furnaces for Pet Cremation

May 26, 2021 by hiclover 0 Comments #waste-incinerator

Basic Info.

Model NO.:incinerator manufacturers in middle east
Export Markets:Global

Product Description

Key Features:  * All models with Dual combustion chamber.  * Stainless Steel chimney/stack, long lifetime. *according to order  * High fever, long lifetime of incinerator.  * Free or minimal installation on site.  *according to order  * New Design for pet animal cremation company.  * One year warranty on incinerator and components in stock. 

Program Scope:  1. Hospital& practice: Iatric Waste, Infectious Waste, Dressing, Bio-Waste, Medicine.  2. Slaughter House &esign incinerator sampah, design of medical waste incinerator, design of small medical waste incinerator, designer medical incinerator, destructor incinerator,  Pet Hospital &Farm: Dead Animal, Bio-Waste.  3. Community & Sea Port & Station: Municipal Solid Waste, etc.  4. Laboratories, Remote Locations, Disaster Relief Operations, Animal Cremation 

Nanjing Clover Medical Technology Co., Ltd.. Is a leading waste incinerator manufacturer in China. We are local manufacturer and among the greatest exporter of China. Pyrolytic incinerator equipment technical is primary waste treatment each of the world, for Medical Waste, Animal Incineration, Pet cremation and other Solid wste. The capacity from 10kgs/Hr. To 500kgs/Hr. Up to 6ton per day. Presently, we supply different series for local client requirements and design updated incinerator with our leading technology. The updated design feature of our assortment of incinerators make them among the most cost effective in the world.

Items/Model YD-200 YD-300 YD-500 YD-600
Burning Rate (kgs/Hour) 200 kgs/Hr. 300 kgs/Hr. 500 kgs/Hr. 600 kgs/Hr.
Feed Capacity (kgs) 400 kgs 500 kgs 800 kgs 1100 kgs
Equipment Weight 7600 kgs 8300 kgs 13000 kgs 16500 kgs
Primary Chamber (Liters) 2000 2400 4000 5500
Secondary Chamber (Liters) 500 1200 1500 1500
External Dimensions (cm) 270 x 185 x 380 260x220x420 320x220x460 360 x 220 x 475
Internal Dimensions (cm) 180 x 115 x 96 220x110x100 257x147x108 300 x 147 x 125
Oil Tank(Liters) 300 500 500 500
Door Opening (cm) 59 x 81 90 x 110 108 x 128 108 x 128
Chimney (M) 10 10 14 14
Chimney Type Stainless Steel Stainless Steel Stainless Steel Stainless Steel
Secondary Chamber  YES YES YES YES
Mix-Combustion Chamber YES YES YES YES
Smoke Filter Chamber YES YES YES YES
Combustion Fuel Oil/Gas Oil/Gas Oil/Gas Oil/Gas
Residency Time 2.0 Sec. 2.0 Sec. 2.0 Sec. 2.0 Sec.
Temperature Monitoring YES YES YES YES

waste

Norfolk incinerator bill wrangle could continue until after Christmas

May 26, 2021 by hiclover 0 Comments #incinerator, #waste, #waste-incinerator

Norfolk County Council voted by 48 votes to 30 to terminate the contract for the proposed incinerator at Saddlebow at an extraordinary meeting in April.

Council officers had said that, due to delays in securing planning permission, the controversial project no longer offered good value for money, and councillors agreed to ditch it.

In May, the estimated cost of cancelling the contract was put at just over £33.7m. That included £20.3m to Cory Wheelabrator – the company which would have built and run the burner; public inquiry costs of £1.6m and estimated interest rate related costs of £11.8m.

The first £11.8m of that bill was paid in July, but council bosses have been locked in months of arguments about the fine details of the contract and how much that means the council must pay Cory Wheelabrator.
In September, it was announced the compensation would be “considerably lower” than the £20.3m originally estimated.

But at a meeting this week, Tom McCabe, interim director of environment, transport and development at Norfolk County Council, told councillors the final figure had yet to be agreed.

He said: “The discussion with Cory Wheelabrator is ongoing and we would hope to have it resolved by Christmas.

“It’s premature to say it will be done by then, though. It could be done before that or it could drag on for longer.”
Norfolk County Council is still trying to come up with a long-term solution for how to deal with the county’s waste.

But, in the short-term, a deal has been struck with their counterparts in Suffolk for rubbish to be burned at a newly-built incinerator in Great Blakenham.

Over the next year, about 40,000 tonnes of Norfolk’s residual household waste will be hauled down the A140 to be burned at the plant.

• What do you think of the incinerator saga? Write, giving full contact details, to Letters Editor, Prospect House, Rouen Road, Norwich NR1 1RE.
by: http://www.edp24.co.uk/news/politics/norfolk_incinerator_bill_wrangle_could_continue_until_after_christmas_1_3823390