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公开(公告)号:US07497094B2
公开(公告)日:2009-03-03
申请号:US10536029
申请日:2003-11-28
CPC分类号: C03B5/193 , C03B5/187 , C03B5/225 , C03B2201/20 , Y02P40/57
摘要: A charged glass raw material B is melted in a melting tank 10 by heating with a burner 31 and by heating with electrodes 12, to form molten glass G. Then, the molten glass G flows into a tank additionally provided as a noble gas dissolving tank 20 through a throat 40. The noble gas dissolving tank 20 is provided with a noble gas dissolving device 53, and the noble gas dissolving device 53 is provided with sixteen noble gas inlets 22 for introducing a helium or neon gas supplied to a hearth through heat resistant gas introduction tubes 21 into the noble gas dissolving tank 20. Bubbles of a helium gas A having a purity of 99% are blown out from the noble gas inlets 22 in volumes such that the bubbles have an average diameter of 80 mm or less in the molten glass G.
摘要翻译: 带电的玻璃原料B通过用燃烧器31加热并用电极12加热在熔化槽10中熔化,形成熔融玻璃G.然后,熔融玻璃G流入另外设置为惰性气体溶解罐 惰性气体溶解槽20设置有惰性气体溶解装置53,惰性气体溶解装置53设置有十六个惰性气体入口22,用于将通过加热供给到炉床的氦气或氖气引入 将惰性气体导入管21插入到惰性气体溶解槽20中。纯度为99%的氦气A的气泡从稀有气体入口22排出,体积使得气泡的平均直径为80mm以下 熔融玻璃G.
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公开(公告)号:US20060101859A1
公开(公告)日:2006-05-18
申请号:US10536029
申请日:2003-11-28
CPC分类号: C03B5/193 , C03B5/187 , C03B5/225 , C03B2201/20 , Y02P40/57
摘要: A charged glass raw material B is melted in a melting tank 10 by heating with a burner 31 and by heating with electrodes 12, to form molten glass G. Then, the molten glass G flows into a tank additionally provided as a noble gas dissolving tank 20 through a throat 40. The noble gas dissolving tank 20 is provided with a noble gas dissolving device 53, and the noble gas dissolving device 53 is provided with sixteen noble gas inlets 22 for introducing a helium or neon gas supplied to a hearth through heat resistant gas introduction tubes 21 into the noble gas dissolving tank 20. Bubbles of a helium gas A having a purity of 99% are blown out from the noble gas inlets 22 in volumes such that the bubbles have an average diameter of 80 mm or less in the molten glass G.
摘要翻译: 带电的玻璃原料B通过用燃烧器31加热并用电极12加热在熔化槽10中熔化,形成熔融玻璃G.然后,熔融玻璃G流入另外设置为惰性气体溶解罐 20通过喉咙40。 惰性气体溶解槽20设置有惰性气体溶解装置53,并且惰性气体溶解装置53设置有十六个惰性气体入口22,用于将通过耐热气体导入管21供给到炉床的氦气或氖气引入到 惰性气体溶解槽20。 从惰性气体入口22排出的纯度为99%的氦气A的气泡的体积使得气泡在熔融玻璃G中的平均直径为80mm以下。
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公开(公告)号:US5603456A
公开(公告)日:1997-02-18
申请号:US381862
申请日:1995-02-07
CPC分类号: F23D11/38 , F23D11/107 , F23D11/24
摘要: Disclosed is a burner for burning liquid fuel that is able to obtain a long flame in which the proportion of the luminous flame portion is large, and thereby particularly effective for radiant heat transfer. This liquid fuel burner is composed of a fuel feed pipe (4) having a fuel spray nozzle (3) at its distal end, a combustion-assisting gas feed pipe (6) provided concentrically on the outside of the fuel feed pipe (4) to form a combustion-assisting gas passage (5), and an orifice member (7) arranged within the above-mentioned fuel feed pipe (4) at an interval from the distal end of the fuel feed pipe (4). In addition, the orifice (9) of the orifice member (7) and the fuel spray nozzle (3) of the above-mentioned fuel feed pipe (4) are mutually eccentric.
摘要翻译: PCT No.PCT / JP94 / 00334 Sec。 371日期:1995年2月7日 102(e)日期1995年2月7日PCT 1994年3月2日PCT公布。 公开号WO94 / 29645 日期1994年1月22日公开是燃烧液体燃料的燃烧器,其能够获得发光火焰部分的比例大的长焰,因此对于辐射热传递特别有效。 该液体燃料燃烧器由在其远端具有燃料喷雾喷嘴(3)的燃料供给管(4),同时设置在燃料供给管(4)的外侧的燃烧辅助气体供给管(6) 以形成燃烧辅助气体通路(5),以及从燃料供给管(4)的前端开始配置在上述燃料供给管(4)内的节流部件(7)。 此外,孔构件(7)的孔(9)和上述燃料供给管(4)的燃料喷雾喷嘴(3)相互偏心。
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