广东化工
廣東化工
엄동화공
GUANGDONG CHEMICAL INDUSTRY
2012年
14期
22-24
,共3页
孟江%李永树%张燕%陈玥利
孟江%李永樹%張燕%陳玥利
맹강%리영수%장연%진모리
天然气%三甘醇%无机盐%脱水%发泡
天然氣%三甘醇%無機鹽%脫水%髮泡
천연기%삼감순%무궤염%탈수%발포
natural gas%TEG%inorganic salts%dehydration%foaming
在天然气净化工艺过程中,三甘醇会受到天然气所携带高矿化度地层水的污染,影响生产。因此,通过实验分析了氯化钠、碳酸氢钠、氯化钙以及氯化铁等无机盐对三甘醇富液脱水和发泡、消泡的影响。研究结果表明,三甘醇富液含水量越大,脱水需要的时间越长,且不易脱除;三甘醇富液脱水率随氯化钠、氯化钙和碳酸氢钠浓度的增大而下降。钙离子对三甘醇富液脱水影响要大于钠离子,碳酸根离子的影响大于氯离子;对于发泡来说,氯化钙影响最小,但氯化钠、氯化钙和碳酸氢钠都存在一个引起三甘醇富液(含有十二烷基磺酸钠)发泡高度最大的浓度,碳酸氢钠的最大,氯化钙的最小;消泡方面,三种盐存在一个消泡最大时间对应的浓度范围,这个浓度范围氯化钙最小,碳酸氢钠最大。氯化铁浓度增大使三甘醇富液脱水率缓慢下降,在研究范围内,总体变化不大;三甘醇富液发泡高度及消泡时间随氯化铁加入浓度的增大而增大,在氯化铁浓度达到0.12%(重量浓度)趋于平缓。
在天然氣淨化工藝過程中,三甘醇會受到天然氣所攜帶高礦化度地層水的汙染,影響生產。因此,通過實驗分析瞭氯化鈉、碳痠氫鈉、氯化鈣以及氯化鐵等無機鹽對三甘醇富液脫水和髮泡、消泡的影響。研究結果錶明,三甘醇富液含水量越大,脫水需要的時間越長,且不易脫除;三甘醇富液脫水率隨氯化鈉、氯化鈣和碳痠氫鈉濃度的增大而下降。鈣離子對三甘醇富液脫水影響要大于鈉離子,碳痠根離子的影響大于氯離子;對于髮泡來說,氯化鈣影響最小,但氯化鈉、氯化鈣和碳痠氫鈉都存在一箇引起三甘醇富液(含有十二烷基磺痠鈉)髮泡高度最大的濃度,碳痠氫鈉的最大,氯化鈣的最小;消泡方麵,三種鹽存在一箇消泡最大時間對應的濃度範圍,這箇濃度範圍氯化鈣最小,碳痠氫鈉最大。氯化鐵濃度增大使三甘醇富液脫水率緩慢下降,在研究範圍內,總體變化不大;三甘醇富液髮泡高度及消泡時間隨氯化鐵加入濃度的增大而增大,在氯化鐵濃度達到0.12%(重量濃度)趨于平緩。
재천연기정화공예과정중,삼감순회수도천연기소휴대고광화도지층수적오염,영향생산。인차,통과실험분석료록화납、탄산경납、록화개이급록화철등무궤염대삼감순부액탈수화발포、소포적영향。연구결과표명,삼감순부액함수량월대,탈수수요적시간월장,차불역탈제;삼감순부액탈수솔수록화납、록화개화탄산경납농도적증대이하강。개리자대삼감순부액탈수영향요대우납리자,탄산근리자적영향대우록리자;대우발포래설,록화개영향최소,단록화납、록화개화탄산경납도존재일개인기삼감순부액(함유십이완기광산납)발포고도최대적농도,탄산경납적최대,록화개적최소;소포방면,삼충염존재일개소포최대시간대응적농도범위,저개농도범위록화개최소,탄산경납최대。록화철농도증대사삼감순부액탈수솔완만하강,재연구범위내,총체변화불대;삼감순부액발포고도급소포시간수록화철가입농도적증대이증대,재록화철농도체도0.12%(중량농도)추우평완。
In natural gas purification process,high-salinity formation water with natural gas can pollute TEG,which can affect production.Thus,experiment analysis of sodium chloride,sodium bicarbonate,calcium chloride and chloride,inorganic salts effecting on the TEG rich liquid dehydration and foaming and defoaming.Research results showed that TEG rich liquid water content was more,dehydration took longer,and difficult to remove;Triethylene glycol enriched fluid dehydration rate decrease with sodium chloride,calcium chloride and sodium bicarbonate concentrations increasing,calcium ions affecting on triethylene glycol rich liquid dehydration was more than sodium ion's and carbonate ion's was more than the effect of chloride ion;For the,calcium chloride effect of TEG foam was minimal.For sodium chloride,calcium chloride and sodium bicarbonate,there existed a cause TEG rich liquid(containing 12 alkyl sulfonic acid sodium) foam height maximum concentration.The concentration was the maximum of sodium bicarbonate,the minimum of calcium chloride;for the Defoaming,three kinds of salt there was a defoaming maximum time with the concentration range.The concentration range was the minimum of calcium chloride,the maximum of sodium bicarbonate.Ferric chloride concentration increasing make the triethylene glycol rich fluid dehydration rate decline slowly,within the scope of the study,the overall change was unlikely;TEG rich liquid with high foaming and defoaming time was much with ferric chloride concentration increasing,.in ferric chloride concentration 0.12 %(mass concentration),the charge was flat.