“Corner tube boiler”的意思、由来-开放百科全书

A cornertube boiler is a type of natural circulation water-tube boiler which differentiates itself from other water tube boilers by its characteristic water-steam cycle and a pre-separation of heated steam from the steam-water mixture occurs outside the drum and the unheated downcomers.^[1]

Principle

Cornertube boilers were developed for small steam output. The design was based around two factors that, along with excellent water circulation, should be appropriate cooling even at light loads. Its special feature is its Monocoque body i.e. the unheated downcomers form the supporting frame work^[2] and not the thermally loaded tubes, hence the name corner tube boiler.^[1]Moreover, the piping-arrangement (system) is also responsible; to manage the riser tubes and water distribution in riser tubes and down comers and to collect the steam water mixture and to make a certain amount of pre-separation of steam and water mixture.^[3]^[4] Put simply, the water circulation takes place simultaneously through the drum and through the unheated down comers outside the drum.^[5]

History

During World War II a shortage of fuels like gas and petrol alongside the idea of running diesel engines with Steam occurred and led to the development of a new type of boiler.^[6] Dr. Henrich Vorkauf came up with the first design of a new natural circulation boiler which was then installed into a truck in the year 1944.^[2]

Using this principle Dr. Vorkauf developed a single drum boiler with downcomers in four corners and named this boiler Eckrohrkessel (German name). Corner Tube Boiler is word to word translation of Eckrohrkessel, (Eck=Corner, rohr=tube and kessel=boiler)

Working

The water flows down from the drum (6) through the down comers (7) and it is distributed in the different riser tubes(4). The steam-water mixture circulates and flows in the upward direction through the riser tubes. In the radiation heated area through the pre-separator (also known as cross-collector) (3),occurs the pre-separation of steam from the steam water mixture. The separated steam flows through the overhead pipe (5) and the steam-water mixture flows through the collector pipe (3) to the drum (6) as well.In the drum occurs the final separation of steam from steam water mixture. The rest amount of water flows through the unheated return tubes (1) and downcomers (7) to the rear wall distributor/header (2). Due to the water returning from the unheated downcomers (1) a lively circulation takes place .^[7]

Advantages

Disadvantages

Fuels

The various fuels which can be used or are commonly used in the USA, Europe and Pacific Countries are Bagasse, Biomass, Lignite, Coal, Scaly Bark, Fuel gas, Industrial waste, khuff gas, MFO(marine fuel oil), Organic matter, Oil, Litter, Rice hulls, Rubberwood, Sludge, Wood, Woodchips.

References

1. ^¹²³⁴{{cite book |last=Thome-Kozmiensky|first=Karl J.|title=Thermische Abfallbehandlung|year=1994|publisher=EF für Energie und Umwelttechnik|location=Germany|isbn=3-924511-77-2 |pages=393–394}}
2. ^¹²{{cite book |last=Mayer |first=Fritz |title=The Corner Tube Boiler |year=1986 |publisher=Resch |location=Germany |isbn=3-87806-033-5 |page=99}}
3. ^{{cite journal|last=Block|first=F|author2=Lalone, Girouard, Letendere |title=Designing a Boiler for Waste Fuels |journal=Power |date=May 1977 |location= USA |page=75 }}
4. ^{{cite web |last=Josefsson |first=Lars |title=Eckrohr Boiler|publisher=Steam Esteem |accessdate=11 March 2013|url=http://www.steamesteem.com/?boilers/eckrohr-boiler}}
5. ^{{cite book|last=Vorkauf|first=Henrich|title=Der Wasserumlauf in Eckrohrkessel|year=1957|publisher=Energie|location=Germany|page=3}}
6. ^{{cite book |last=Noot |first=Wolfgang |title=Vom Kofferkessel bis zum Großkraftwerk Die Entwicklung im Kesselbau |year=2011 |publisher=Vulkan Verlag|location=Germany |language=German |isbn=978-3-8027-2558-6 |ref=harv |page=345}}
7. ^{{cite journal|last=Vorkauf|first=Henrich|title=Der Eckrohrkessel|journal=VDI Zeitschrift|year=1951|volume=93|issue=14|pages=395–397|accessdate=12 March 2013}}
8. ^Peterseim J.H.,White, S., Tadros, A., Vanz, E. (2012). Pre-feasibility study for a multi-fuel/ concentrated solar power hybrid plant at Swanbank, QLD. Prepared for Thiess ServicesPty Ltd by the Institute for Sustainable Futures, University of Technology, Sydney,Australia.21-25.