JP3507873B2 - Heavy oil processing emulsifier and heavy oil processing method using the same - Google Patents
Heavy oil processing emulsifier and heavy oil processing method using the sameInfo
- Publication number
- JP3507873B2 JP3507873B2 JP17764097A JP17764097A JP3507873B2 JP 3507873 B2 JP3507873 B2 JP 3507873B2 JP 17764097 A JP17764097 A JP 17764097A JP 17764097 A JP17764097 A JP 17764097A JP 3507873 B2 JP3507873 B2 JP 3507873B2
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- Japan
- Prior art keywords
- heavy oil
- water
- oil
- emulsifier
- jis
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Emulsifying, Dispersing, Foam-Producing Or Wetting Agents (AREA)
- Liquid Carbonaceous Fuels (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、C重油や廃油等の
重質油中に水粒子が分散されたウォーター・イン・オイ
ル型エマルジョンを形成するための重質油処理用乳化剤
およびそれを用いた重質油処理方法に関するものであ
る。TECHNICAL FIELD The present invention relates to a heavy oil treating emulsifier for forming a water-in-oil emulsion in which water particles are dispersed in a heavy oil such as C heavy oil or waste oil, and the use thereof. The present invention relates to a heavy oil treatment method.
【0002】[0002]
【従来の技術】重油は、石油精製工程の最終段階におい
て製造され、一般に、粘度、流動点および残留炭素分等
から、A重油(1種)、B重油(2種)、C重油(3
種)に分類される。そして、上記重油は、高カロリー
(約10,000kcal/kg)であって、かつ比較
的安価で取り扱いが容易であることから、例えば、ディ
ーゼルエンジン等の内燃機関,ボイラー,各種の炉等の
燃料として使用されており、重油の消費量は、大規模な
燃焼施設等を含めた各種産業において、日本で使用され
る全石油製品の約70〜80%を占めている。2. Description of the Related Art Heavy oil is produced in the final stage of a petroleum refining process and is generally classified into A heavy oil (1 type), B heavy oil (2 types), C heavy oil (3 types) based on viscosity, pour point and residual carbon content.
Species). Since the heavy oil has a high calorie (about 10,000 kcal / kg), is relatively inexpensive, and is easy to handle, for example, fuel for internal combustion engines such as diesel engines, boilers, various furnaces, etc. The consumption of heavy oil accounts for about 70 to 80% of all petroleum products used in Japan in various industries including large-scale combustion facilities.
【0003】上記重油、特にB重油やC重油等の高粘度
重油はその燃焼時に、硫黄酸化物,窒素酸化物,一酸化
炭素,煤および粉塵等の大量の汚染物質を発生させ、こ
れら汚染物質は環境を汚染し、生態系にとって重大な脅
威となることから、上記汚染物質の効果的な公害防止対
策を講じることが求められている。例えば、わが国で
は、重油を用いた燃焼施設に対して、汚染物質の最大排
出量に関する様々な基準が設定されている。その結果、
一般的に、燃料として重油を使用する業界では、重油燃
料施設に対し、大規模な設備投資を行い、高度な公害対
策設備を備えるようになっている。The above-mentioned heavy oils, particularly high-viscosity heavy oils such as B heavy oil and C heavy oil, generate a large amount of pollutants such as sulfur oxides, nitrogen oxides, carbon monoxide, soot and dust when they are burned. Since it pollutes the environment and poses a serious threat to the ecosystem, it is required to take effective measures to prevent pollution of the above pollutants. For example, in Japan, various standards regarding the maximum emission amount of pollutants are set for combustion facilities using heavy oil. as a result,
Generally, in the industry that uses heavy oil as fuel, large-scale capital investment is made for heavy oil fuel facilities, and sophisticated pollution control equipment is provided.
【0004】[0004]
【発明が解決しようとする課題】上記公害対策設備は、
特に、C重油等の低級油を使用する際に、より複雑かつ
高価になる傾向がみられる。しかしながら、C重油はA
重油およびB重油よりも多量の汚染物質を排出するにも
関わらず、多くの企業では比較的安価であるという理由
からC重油を使用している。このように、C重油を使用
する企業では、公害対策設備に対して多大な投資を行わ
なければならないか、あるいは、汚染物質の排出量を低
減させるために、C重油にA重油およびB重油を混合し
なければならず、いずれにしてもC重油の使用に際して
はコスト高とならざるをえないのが実情である。The pollution control equipment described above is
In particular, when using a lower oil such as C heavy oil, it tends to be more complicated and expensive. However, C heavy oil is A
Despite emitting more pollutants than heavy oil and heavy oil B, many companies use heavy oil C because they are relatively inexpensive. As described above, a company that uses C heavy oil must make a large investment in pollution control equipment, or use C heavy oil with A heavy oil and B heavy oil in order to reduce the emission of pollutants. It is necessary to mix them, and in any case the cost of using C heavy oil is inevitably high.
【0005】実際に、燃料として上記C重油を使用する
場合は、一般に、C重油を重油燃焼用バーナーによって
霧化して燃焼させる。この際、C重油の燃焼効率の向上
は、空気とC重油の比率を調整することによってなされ
るが、上記空気とC重油の比率の調整操作によって重油
粒子の粒径は大きくなるため、結果、C重油は不完全燃
焼し、それによって多量の汚染物質を排出させる結果と
なる。したがって、C重油に対して何らかの処理を施し
汚染物質を多量に排出させることなく、C重油を完全燃
焼させることが要望されている。In practice, when the above C heavy oil is used as fuel, the C heavy oil is generally atomized and burned by a heavy oil burning burner. At this time, the combustion efficiency of the C heavy oil is improved by adjusting the ratio of air and C heavy oil, but the particle size of the heavy oil particles is increased by the operation of adjusting the ratio of air and C heavy oil, and as a result, Heavy oil C burns incompletely, resulting in the emission of large amounts of pollutants. Therefore, it is required to completely burn C heavy oil without subjecting C heavy oil to any treatment to discharge a large amount of pollutants.
【0006】一方、上記重油以外に、その処理対策が苦
慮されているものとして廃油があげられる。例えば、工
場等において廃油が発生する施設においては、上記廃油
を、再使用可能部分、再使用不可能部分、水等に分離さ
せ処理することが行われている。そして、わが国におい
て、再使用不可能部分に対しては、焼却炉にて燃焼させ
て処理する方法が採られているが、その際、前記C重油
と同様、排出される汚染物質を、日本政府の厳しい基準
値以下に制御しなければならない。また、上記分離によ
り生成した水は、一般に廃油を含有していないが、その
廃油によって汚染されて不快臭を発生させる。したがっ
て、上記分離された水は、排出する前に、予め、濾過お
よび精製して、油分を完全に除去しなければならず、そ
の結果、上記廃油処理の分離・燃焼設備に加えて、水濾
過精製設備を必要とする。このようなことから、廃油を
上記のように再使用可能部分、再使用不可能部分、水等
に分離して処理する必要がなく、例えば、廃油を上記分
離、濾過等を経由させることなくそのままの状態で燃焼
処理することが要望されている。[0006] On the other hand, in addition to the above heavy oil, waste oil can be cited as one that is difficult to be treated. For example, in a facility where waste oil is generated in a factory or the like, the waste oil is separated into a reusable portion, a non-reusable portion, water and the like for treatment. In Japan, a method of burning non-reusable parts in an incinerator to treat them is used. At that time, as with the C heavy oil, the discharged pollutants are treated by the Japanese government. Must be controlled below the strict standard value of. Further, the water produced by the above separation generally does not contain waste oil, but is contaminated by the waste oil to generate an unpleasant odor. Therefore, the separated water must be filtered and purified in advance to completely remove the oil content before discharging, and as a result, in addition to the separation / combustion equipment for the waste oil treatment, the water filtration is performed. Requires refining equipment. For this reason, it is not necessary to separate the waste oil into reusable parts, non-reusable parts, water, etc. as described above, and for example, the waste oil can be directly processed without passing through the separation, filtration, etc. It is required to carry out the combustion treatment in the state of.
【0007】本発明は、このような事情に鑑みなされた
もので、重質油中に水粒子を均一に分散させることので
きる重質油処理用乳化剤、および、それを用いた重質油
処理方法を提供することをその目的とする。The present invention has been made in view of the above circumstances, and is an emulsifier for treating heavy oil capable of uniformly dispersing water particles in the heavy oil, and a heavy oil treatment using the same. Its purpose is to provide a method.
【0008】[0008]
【課題を解決するための手段】上記の目的を達成するた
め、本発明は、重質油中に水粒子を分散させウォーター
・イン・オイル型エマルジョンを形成するための乳化剤
であって、苛性ソーダと塩化カルシウムと水とを主成分
とする重質油処理用乳化剤を第1の要旨とする。In order to achieve the above object, the present invention is an emulsifier for dispersing water particles in heavy oil to form a water-in-oil type emulsion, which comprises caustic soda and The first gist is an emulsifier for treating heavy oil, which contains calcium chloride and water as main components.
【0009】また、本発明は、苛性ソーダと塩化カルシ
ウムと水とを混合して油処理用乳化剤を作製する工程
と、処理対象となる重質油に水を添加し混合する混合工
程と、上記水が混合された重質油に上記重質油処理用乳
化剤を添加し混合する工程とを備えた重質油処理方法を
第2の要旨とする。The present invention also includes a step of mixing caustic soda, calcium chloride and water to prepare an emulsifier for oil treatment, a mixing step of adding water to a heavy oil to be treated and mixing, and the above water. A second aspect of the present invention is a method for treating heavy oil, which comprises the step of adding the emulsifier for treating heavy oil to the mixed heavy oil and mixing them.
【0010】この発明者は、B重油やC重油,廃油等の
重質油を効率良く燃焼させるために、様々な処理方法を
検討し一連の研究を重ねた。そして、その研究の過程
で、例えば、廃油中の水がそのままの状態で存在する
と、その水が燃焼を阻害することから、逆に廃油を分散
媒体として、この分散媒体中に水粒子を分散させること
ができないかと考えた。つまり、ウォーター・イン・オ
イル型エマルジョンを形成し、燃焼時に水粒子を爆発さ
せ、この爆発を利用して廃油粒子を細かくし、完全燃焼
させることを想起した。そして、この考えに基づき、ウ
ォーター・イン・オイル型エマルジョンを形成すること
ができる全く新規の乳化剤を得るべくさらに研究を重ね
た結果、苛性ソーダと塩化カルシウムと水を主成分とす
る新規の重質油処理用乳化剤を見出し本発明に到達し
た。そして、上記乳化剤を、水が混合された重質油に添
加して混合することにより、上記重質油からなる分散媒
体中に水粒子が均一に分散された、いわゆるウォーター
・イン・オイル型エマルジョンが形成されることを突き
止めた。すなわち、従来のような、水媒体中に油粒子が
分散された状態とは、全く逆の相である、重質油からな
る分散媒体中に水粒子が分散された状態が形成されるた
め、このウォーター・イン・オイル型エマルジョンを燃
焼させた際には、上記のように、燃焼時に水粒子が爆発
して重質油粒子が細かくなり、結果、従来のように、重
質油の中心部分が残存することなく完全燃焼される。The inventor studied various treatment methods and carried out a series of studies in order to efficiently burn heavy oil such as B heavy oil, C heavy oil, and waste oil. Then, in the course of the research, for example, if the water in the waste oil exists as it is, the water inhibits combustion, so that the waste oil is used as the dispersion medium, and the water particles are dispersed in the dispersion medium. I wondered if I could do it. In other words, it was remembered that a water-in-oil type emulsion was formed, water particles were exploded during combustion, and this explosion was used to make waste oil particles fine and completely burned. Then, based on this idea, as a result of further research to obtain a completely new emulsifier capable of forming a water-in-oil type emulsion, a new heavy oil containing caustic soda, calcium chloride and water as main components. The present invention has been accomplished by finding a processing emulsifier. And the so-called water-in-oil emulsion in which the emulsifier is added to and mixed with the heavy oil mixed with water to uniformly disperse the water particles in the dispersion medium composed of the heavy oil. Was found to have formed. That is, as in the prior art, the state in which the oil particles are dispersed in the aqueous medium is a completely opposite phase, because the state in which the water particles are dispersed in the dispersion medium made of heavy oil is formed, When this water-in-oil type emulsion is burned, the water particles explode during combustion and the heavy oil particles become finer as described above. Is completely burned without remaining.
【0011】そして、上記乳化剤の主成分である苛性ソ
ーダ(a)と塩化カルシウム(b)と水(c)の3者の
混合割合を、水(c)100リットルに対して、苛性ソ
ーダ(a)が5〜50kg、塩化カルシウム(b)が5
〜50kgの範囲に設定することが好ましい。The mixing ratio of caustic soda (a), calcium chloride (b), and water (c), which are the main components of the emulsifier, to the caustic soda (a) relative to 100 liters of water (c). 5 to 50 kg, calcium chloride (b) 5
It is preferably set in the range of 50 kg.
【0012】また、上記乳化剤を用いて含水油状エマル
ジョン溶液を作製する際の、油に水を混合した水含有油
(X)と油処理用乳化剤(Y)との混合割合(X:Y)
を、重量比で、X:Y=1:0.002〜1:0.00
3の割合に設定することが上記ウォーター・イン・オイ
ル型エマルジョンの作製という観点から好ましい。Further, when a water-containing oily emulsion solution is prepared using the above emulsifier, the mixing ratio (X: Y) of the water-containing oil (X) obtained by mixing oil with water and the oil-treating emulsifier (Y).
In a weight ratio of X: Y = 1: 0.002 to 1: 0.00
It is preferable to set the ratio to 3 from the viewpoint of producing the water-in-oil emulsion.
【0013】[0013]
【発明の実施の形態】つぎに、本発明の実施の形態を説
明する。BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of the present invention will be described.
【0014】本発明の重質油処理用乳化剤(以下「乳化
剤」と略す)は、油からなる分散媒体と、上記分散媒体
中に均一に分散された水とを含む乳化油である含水油状
エマルジョン溶液を形成するための乳化剤であって、苛
性ソーダと塩化カルシウムと水とを主成分として含有す
る。なお、本発明において、「主成分とする」とは、主
成分のみからなる場合も含める趣旨である。The emulsifier for treating heavy oil of the present invention (hereinafter abbreviated as "emulsifier") is a water-containing oil emulsion which is an emulsified oil containing a dispersion medium composed of oil and water uniformly dispersed in the dispersion medium. It is an emulsifier for forming a solution and contains caustic soda, calcium chloride and water as main components. In addition, in the present invention, the phrase “having as a main component” is intended to include a case where the main component is included.
【0015】そして、本発明の乳化剤を用いた処理対象
の重質油としては、特に限定するものではないが、例え
ば、石油系重質炭化水素油、特に、B重油、C重油、原
油、オイルサンド等があげられるが、本発明では、上記
以外に、各種産業施設において発生する廃油も処理対象
として含む。The heavy oil to be treated with the emulsifier of the present invention is not particularly limited, but for example, petroleum heavy hydrocarbon oils, particularly B heavy oil, C heavy oil, crude oil, oil. Examples include sand and the like, but in the present invention, in addition to the above, waste oil generated in various industrial facilities is also included as a processing target.
【0016】本発明の乳化剤は、苛性ソーダと塩化カル
シウムと水とを用いて得られる。The emulsifier of the present invention is obtained by using caustic soda, calcium chloride and water.
【0017】上記苛性ソーダおよび塩化カルシウムとし
ては、それぞれ特に限定するものでなく、従来公知のも
のが用いられる。The caustic soda and calcium chloride are not particularly limited, and conventionally known ones can be used.
【0018】また、上記水も、特に限定するものではな
く、水道水を含む通常の水や海水が使用される。The water is not particularly limited, and ordinary water including tap water or seawater can be used.
【0019】本発明の乳化剤において、上記苛性ソーダ
(a)と塩化カルシウム(b)と水(c)との混合割合
は、水(c)100リットルに対して、苛性ソーダ
(a)が5〜50kg、塩化カルシウム(b)が5〜5
0kgの範囲に設定することが好ましく、より好ましく
水(c)100リットルに対して、苛性ソーダ(a)が
15〜25kg、塩化カルシウム(b)が15〜25k
gの範囲であり、特に好ましくは水(c)100リット
ルに対して、苛性ソーダ(a)が25kg、塩化カルシ
ウム(b)が25kgである。すなわち、上記3者の混
合割合において、水の混合量が、上記範囲を下回り少な
過ぎると、液の粘度が高く流動しがたくなり、計量注入
が困難となる傾向がみられ、逆に水の混合量が上記範囲
を上回り多過ぎると、多量の液を入れなければならず、
運送費や設備等に多くの費用がかかる傾向がみられるか
らである。In the emulsifier of the present invention, the mixing ratio of the caustic soda (a), calcium chloride (b) and water (c) is 5 to 50 kg of caustic soda (a) per 100 liters of water (c). Calcium chloride (b) is 5-5
It is preferable to set in the range of 0 kg, more preferably 15 to 25 kg of caustic soda (a) and 15 to 25 k of calcium chloride (b) per 100 liters of water (c).
The range is g, and particularly preferably 25 kg of caustic soda (a) and 25 kg of calcium chloride (b) per 100 liters of water (c). That is, in the above three mixing ratios, if the amount of water mixed is less than the above range and is too small, the viscosity of the liquid is high and it becomes difficult to flow, and it tends to be difficult to meter the water. If the mixed amount exceeds the above range and is too much, a large amount of liquid must be added,
This is because transportation costs and facilities tend to be expensive.
【0020】本発明の乳化剤には、主成分である、上記
苛性ソーダ,塩化カルシウムおよび水以外に、必要に応
じて、炭酸カルシウム、アンモニア等の添加剤を適宜に
配合することができる。なお、上記添加剤の配合量は、
本発明の乳化剤の作用を阻害しない範囲であれば特に限
定するものではなく適宜に設定される。In addition to the above-mentioned caustic soda, calcium chloride, and water, which are the main components, the emulsifier of the present invention may optionally contain additives such as calcium carbonate and ammonia. The amount of the above additives added is
The range is not particularly limited as long as it does not impair the action of the emulsifier of the present invention, and is set appropriately.
【0021】本発明の乳化剤は、例えば、上記苛性ソー
ダ,塩化カルシウムおよび水、ならびに、必要に応じて
各種添加剤を所望の混合割合となるよう添加し混合する
ことにより得られる。The emulsifier of the present invention can be obtained, for example, by adding the above-mentioned caustic soda, calcium chloride and water, and if necessary, various additives in a desired mixing ratio and mixing.
【0022】上記混合に際しては、特に限定するもので
はなく従来公知の各種の混合装置が用いられる。The mixing is not particularly limited, and various conventionally known mixing devices are used.
【0023】本発明の乳化剤を用いた重質油の処理は、
例えば、つぎのようにして行われる。すなわち、まず、
先に述べたように、主成分となる苛性ソーダと塩化カル
シウムと水、さらに、必要に応じて他の添加剤を混合す
ることにより乳化剤を作製する。一方、これとは別に、
処理対象となる重質油に水を添加し混合する。つぎに、
上記重質油に水が混合された水混合重質油に上記乳化剤
を添加し混合する。このようにして重質油が処理されて
ウォーター・イン・オイル型エマルジョンが製造され
る。Treatment of heavy oils with the emulsifiers of the invention is
For example, it is performed as follows. That is, first,
As described above, the emulsifier is prepared by mixing caustic soda, calcium chloride, water, which are the main components, and, if necessary, other additives. On the other hand, apart from this,
Water is added to and mixed with the heavy oil to be treated. Next,
The emulsifier is added to and mixed with the water-mixed heavy oil in which water is mixed with the heavy oil. In this way, the heavy oil is processed to produce a water-in-oil emulsion.
【0024】上記重質油に水が混合された水混合重質油
に上記乳化剤を添加し混合する際の混合条件は、特に温
度等限定されるものではなく、例えば、通常の混合攪拌
機を用いて容易に混合することができる。The mixing conditions when the emulsifier is added to and mixed with the water-mixed heavy oil obtained by mixing water with the heavy oil described above are not particularly limited in temperature and the like. For example, an ordinary mixing stirrer is used. And can be mixed easily.
【0025】上記製造されたウォーター・イン・オイル
型エマルジョンは、油が分散媒体となって、この油の分
散媒体中に、水が粒状となって均一に分散された状態と
なっている。しかも、処理対象である重質油に比べて高
粘度となる。この高粘度であることから、水と重質油と
の比重差により両者が分離せず、結果、長期間の放置に
よっても重質油からなる分散媒体中に水粒子が分散され
た形態のウォーター・イン・オイル型エマルジョンが維
持される。In the water-in-oil type emulsion produced as described above, oil serves as a dispersion medium, and in the dispersion medium of this oil, water is granulated and uniformly dispersed. Moreover, the viscosity is higher than that of the heavy oil to be treated. Due to this high viscosity, water and heavy oil do not separate due to the difference in specific gravity, and as a result, water in a form in which water particles are dispersed in a dispersion medium composed of heavy oil even after being left for a long time・ In-oil type emulsion is maintained.
【0026】上記含水油状エマルジョン溶液の製造にお
いて、上記処理対象となる油(d)と水(e)とを混合
する際の両者の混合割合(d:e)は、重量比で、d:
e=95:5〜30:70の割合に設定することが好ま
しい。特に好ましくは、燃料費のコストダウンに対して
の溶液費やランニングコスト費用、公害数値等の点か
ら、d:e=70:30〜75:25の割合である。In the production of the water-containing oily emulsion solution, the mixing ratio (d: e) of the oil (d) to be treated and the water (e) to be treated is a weight ratio of d:
It is preferable to set e = 95: 5 to 30:70. Particularly preferably, the ratio is d: e = 70: 30 to 75:25 from the viewpoints of solution cost, running cost cost, pollution numerical value, etc. for fuel cost reduction.
【0027】さらに、上記油に水が混合された水含有油
(X)に上記油処理用乳化剤(Y)を添加し混合する際
の両者の混合割合(X:Y)は、重量比で、X:Y=
1:0.001〜1:0.1の割合に設定することが好
ましい。特に好ましくは、流動性、計量の容易さ、設
備、運送費という観点から、X:Y=1:0.002〜
1:0.003の割合である。Further, the mixing ratio (X: Y) of both when the oil-treating emulsifier (Y) is added to and mixed with the water-containing oil (X) in which water is mixed with the above-mentioned oil, X: Y =
It is preferable to set the ratio to 1: 0.001 to 1: 0.1. Particularly preferably, X: Y = 1: 0.002-from the viewpoints of fluidity, ease of measurement, equipment, and transportation cost.
The ratio is 1: 0.003.
【0028】このように製造された含水油状エマルジョ
ン溶液は、従来のように、水媒体中に油が分散された状
態とは、全く逆の相、すなわち、上記のように油分散媒
体中に水粒子が分散された状態であるために、例えば、
この含水油状エマルジョン溶液を、燃焼させた際には完
全燃焼されるために、燃焼効率が向上して低コスト化が
図られ、結果、硫黄酸化物,窒素酸化物,一酸化炭素,
煤および粉塵等の汚染物質の発生が抑制されて、環境汚
染等に対して非常に有効な手段となる。The water-containing oily emulsion solution thus produced has a phase which is completely opposite to the conventional state in which oil is dispersed in an aqueous medium, that is, water is dispersed in the oil dispersion medium as described above. Since the particles are in a dispersed state, for example,
When this water-containing oily emulsion solution is burned, it is completely burned, so that the combustion efficiency is improved and the cost is reduced. As a result, sulfur oxides, nitrogen oxides, carbon monoxide,
Generation of pollutants such as soot and dust is suppressed, which is a very effective means for environmental pollution.
【0029】つぎに、実施例について比較例と併せて説
明する。Next, examples will be described together with comparative examples.
【0030】まず、実施例に先立って、乳化剤を作製し
た。
〔乳化剤の作製〕下記の表1に示す各成分を、同表に示
す割合で配合し混合することにより乳化剤を作製した。First, an emulsifier was prepared prior to the examples. [Preparation of Emulsifier] An emulsifier was prepared by mixing and mixing the components shown in Table 1 below in the proportions shown in the same table.
【0031】[0031]
【表1】 [Table 1]
【0032】[0032]
【実施例1〜8、比較例】上記のようにして得られた各
乳化剤A〜Cおよび従来の乳化剤(通常の界面活性剤)
を用いてC重油の処理をつぎのようにして行った。な
お、処理対象となるC重油の分析結果を下記に示す。Examples 1 to 8 and Comparative Examples Emulsifiers A to C obtained as described above and conventional emulsifiers (normal surfactants)
Was used to treat heavy oil C as follows. The analysis results of the C heavy oil to be treated are shown below.
【0033】 〔C重油の分析結果〕 水分 0.22% (JIS K−2275に準拠) 灰分 0.03% (JIS K−2272に準拠) 硫黄分 2.30% (JIS K−2541に準拠) 炭素 86.44% (JIS M−8813に準拠) 水素 10.38% (JIS M−8813に準拠) 窒素 0.22% (JIS K−2609に準拠) 総発熱量 10,220kcal/kg (JIS K−2279に準拠) 動粘度50℃ 183.5 cSt (JIS K−2283に準拠) 動粘度80℃ 42.47cSt (JIS K−2283に準拠)[0033] [Results of analysis of C heavy oil] Water content 0.22% (based on JIS K-2275) Ash content 0.03% (based on JIS K-2272) Sulfur content 2.30% (according to JIS K-2541) Carbon 86.44% (based on JIS M-8813) Hydrogen 10.38% (based on JIS M-8813) Nitrogen 0.22% (based on JIS K-2609) Total calorific value 10,220 kcal / kg (based on JIS K-2279) Kinematic viscosity 50 ° C 183.5 cSt (based on JIS K-2283) Kinematic viscosity 80 ° C 42.47 cSt (based on JIS K-2283)
【0034】〔C重油の処理方法〕下記の表2に示す割
合にてC重油、水、乳化剤を配合した。すなわち、ま
ず、C重油に80℃の水を加えた後、乳化剤を添加して
ミキサーにて混合調整した。[Method for Treating C Heavy Oil] C heavy oil, water, and an emulsifier were mixed in the proportions shown in Table 2 below. That is, first, water at 80 ° C. was added to C heavy oil, and then an emulsifier was added and mixed and adjusted with a mixer.
【0035】[0035]
【表2】 [Table 2]
【0036】上記のようにして処理し得られたウォータ
ー・イン・オイル型エマルジョン、および、分散液のう
ち、実施例1〜3のものについて分析試験を行った。そ
の結果を下記に示す。また、実施例1で得られたウォー
ター・イン・オイル型エマルジョンの顕微鏡写真を図1
に示す。この顕微鏡写真から、C重油を分散媒体とし、
この分散媒体中に水粒子が均一に分散されていることが
確認された。加えて、他の全実施例についても顕微鏡に
より確認したが、上記実施例1と同様、C重油を分散媒
体とし、この分散媒体中に水粒子が均一に分散された状
態が確認された。しかも、いずれの実施例品も、C重油
より高粘度であった。一方、上記比較例で得られた分散
液の顕微鏡写真を図2に示す。この顕微鏡写真から、比
較例の分散液は、水媒体中に、C重油の粒子が分散され
た、いわゆる、オイル・イン・ウォーター型エマルジョ
ンであることが確認された。Of the water-in-oil type emulsions and dispersions obtained by the above-mentioned treatments, those of Examples 1 to 3 were analyzed. The results are shown below. In addition, a micrograph of the water-in-oil type emulsion obtained in Example 1 is shown in FIG.
Shown in. From this micrograph, using C heavy oil as a dispersion medium,
It was confirmed that water particles were uniformly dispersed in this dispersion medium. In addition, all the other Examples were also confirmed by a microscope, and it was confirmed that water particles were uniformly dispersed in this dispersion medium using C heavy oil as the dispersion medium, as in Example 1 above. Moreover, the viscosity of all the example products was higher than that of the C heavy oil. On the other hand, a micrograph of the dispersion obtained in the above Comparative Example is shown in FIG. From this micrograph, it was confirmed that the dispersion liquid of the comparative example was a so-called oil-in-water emulsion in which particles of C heavy oil were dispersed in an aqueous medium.
【0037】 〔実施例1の分析結果〕 水分 16.76% (JIS K−2275に準拠) 灰分 0.08% (JIS K−2272に準拠) 硫黄分 1.75% (JIS K−2541に準拠) 炭素 69.68% (JIS M−8813に準拠) 水素 10.39% (JIS M−8813に準拠) 窒素 0.19% (JIS K−2609に準拠) 総発熱量 8,240kcal/kg (JIS K−2279に準拠) 動粘度50℃ 352.4 cSt (JIS K−2283に準拠) 動粘度80℃ 72.96cSt (JIS K−2283に準拠)[0037] [Analysis result of Example 1] Moisture 16.76% (Based on JIS K-2275) Ash content 0.08% (based on JIS K-2272) Sulfur content 1.75% (based on JIS K-2541) Carbon 69.68% (based on JIS M-8813) Hydrogen 10.39% (based on JIS M-8813) Nitrogen 0.19% (based on JIS K-2609) Total calorific value 8,240 kcal / kg (based on JIS K-2279) Kinematic viscosity 50 ° C 352.4 cSt (based on JIS K-2283) Kinematic viscosity 80 ° C. 72.96 cSt (based on JIS K-2283)
【0038】 〔実施例2の分析結果〕 水分 29.45% (JIS K−2275に準拠) 灰分 0.14% (JIS K−2272に準拠) 硫黄分 1.46% (JIS K−2541に準拠) 炭素 59.98% (JIS M−8813に準拠) 水素 10.61% (JIS M−8813に準拠) 窒素 0.12% (JIS K−2609に準拠) 総発熱量 7,050kcal/kg (JIS K−2279に準拠) 動粘度50℃ 473.7 cSt (JIS K−2283に準拠) 動粘度80℃ 112.2 cSt (JIS K−2283に準拠)[0038] [Analysis result of Example 2] Water content 29.45% (based on JIS K-2275) Ash content 0.14% (according to JIS K-2272) Sulfur content 1.46% (based on JIS K-2541) Carbon 59.98% (according to JIS M-8813) Hydrogen 10.61% (according to JIS M-8813) Nitrogen 0.12% (based on JIS K-2609) Total calorific value 7,050 kcal / kg (based on JIS K-2279) Kinematic viscosity 50 ° C. 473.7 cSt (based on JIS K-2283) Kinematic viscosity 80 ° C 112.2 cSt (based on JIS K-2283)
【0039】 〔実施例3の分析結果〕 水分 47.99% (JIS K−2275に準拠) 灰分 0.10% (JIS K−2272に準拠) 硫黄分 1.00% (JIS K−2541に準拠) 炭素 41.09% (JIS M−8813に準拠) 水素 10.61% (JIS M−8813に準拠) 窒素 0.07% (JIS K−2609に準拠) 総発熱量 4,770kcal/kg (JIS K−2279に準拠) 動粘度50℃ 1394 cSt (JIS K−2283に準拠) 動粘度80℃ 336.5cSt (JIS K−2283に準拠)[0039] [Analysis result of Example 3] Moisture content 47.99% (based on JIS K-2275) Ash content 0.10% (based on JIS K-2272) Sulfur content 1.00% (based on JIS K-2541) Carbon 41.09% (according to JIS M-8813) Hydrogen 10.61% (according to JIS M-8813) Nitrogen 0.07% (based on JIS K-2609) Total calorific value 4,770 kcal / kg (based on JIS K-2279) Kinematic viscosity 50 ° C 1394 cSt (based on JIS K-2283) Kinematic viscosity 80 ° C 336.5 cSt (based on JIS K-2283)
【0040】一方、上記のように処理し得られたウォー
ター・イン・オイル型エマルジョン(実施例品)、およ
び、分散液(比較例品)について25℃にて7日間放置
した後、目視により状態を観察した。その結果を下記の
表3に示す。On the other hand, the water-in-oil type emulsion (Example product) and the dispersion liquid (Comparative Example product) obtained by the above treatments were left standing at 25 ° C. for 7 days and then visually observed. Was observed. The results are shown in Table 3 below.
【0041】[0041]
【表3】 *:水とC重油とが分離していた。[Table 3] *: Water and C heavy oil were separated.
【0042】[0042]
【発明の効果】以上のように、本発明は、苛性ソーダと
塩化カルシウムと水とを主成分とした、重質油中に水粒
子が分散したウォーター・イン・オイル型エマルジョン
を形成するための乳化剤である。そして、水を混合した
重質油に対して、上記乳化剤を添加して混合することに
より、重質油からなる分散媒体中に水粒子が分散された
ウォーター・イン・オイル型エマルジョンを容易に作製
することができる。このようにして重質油処理して得ら
れたウォーター・イン・オイル型エマルジョンは、処理
対象である重質油に比べて高粘度となり、水と重質油と
の比重差による分離が生じず、長期間の放置によっても
重質油からなる分散媒体中に水粒子が分散された形態の
ウォーター・イン・オイル型エマルジョンが維持され、
保管が可能となる。そして、上記ウォーター・イン・オ
イル型エマルジョンの燃焼時には、重質油中に分散され
た水粒子が爆発して重質油粒子が細かくなり、結果、従
来のように、重質油の中心部分が残存することなく完全
燃焼される。したがって、従来のように、重質油の不完
全燃焼により生成する汚染物質処理用の大規模な設備投
資を行う必要がなく、例えば、C重油の使用、あるいは
廃油の処理において大幅な低コスト化が実現する。INDUSTRIAL APPLICABILITY As described above, the present invention is an emulsifier for forming a water-in-oil emulsion in which water particles are dispersed in heavy oil, which is mainly composed of caustic soda, calcium chloride and water. Is. Then, the above emulsifier is added to and mixed with the heavy oil mixed with water to easily prepare a water-in-oil emulsion in which water particles are dispersed in a dispersion medium composed of the heavy oil. can do. The water-in-oil emulsion obtained by treating the heavy oil in this way has a higher viscosity than the heavy oil to be treated, and separation due to the difference in specific gravity between water and heavy oil does not occur. The water-in-oil type emulsion in which water particles are dispersed in a dispersion medium composed of heavy oil is maintained even after being left for a long time.
Can be stored. When the water-in-oil type emulsion is burned, the water particles dispersed in the heavy oil explode and the heavy oil particles become finer. It is completely burned without remaining. Therefore, it is not necessary to make a large-scale capital investment for the treatment of pollutants generated by incomplete combustion of heavy oil as in the conventional case, and for example, a large cost reduction can be achieved in the use of C heavy oil or the treatment of waste oil. Will be realized.
【0043】そして、本発明の乳化剤の主成分である苛
性ソーダ(a)と塩化カルシウム(b)と水(c)の3
者の混合割合は、水(c)100リットルに対して、苛
性ソーダ(a)が5〜50kg、塩化カルシウム(b)
が5〜50kgの範囲に設定することが好ましい。Then, 3 parts of caustic soda (a), calcium chloride (b) and water (c), which are the main components of the emulsifier of the present invention, are used.
As for the mixing ratio of people, the caustic soda (a) is 5 to 50 kg and the calcium chloride (b) is 100 liters of water (c).
Is preferably set in the range of 5 to 50 kg.
【0044】また、上記乳化剤を用いてウォーター・イ
ン・オイル型エマルジョンを作製する際の、油に水を混
合した水含有油(X)と油処理用乳化剤(Y)との混合
割合(X:Y)は、重量比で、X:Y=1:0.002
〜1:0.003の割合に設定することが、上記ウォー
ター・イン・オイル型エマルジョンの作製という観点か
ら好ましい。When a water-in-oil type emulsion is prepared using the above emulsifier, the mixing ratio of the water-containing oil (X) obtained by mixing oil with water and the emulsifier for oil treatment (Y) (X: Y) is a weight ratio of X: Y = 1: 0.002.
It is preferable to set the ratio to about 1: 0.003 from the viewpoint of producing the water-in-oil emulsion.
【図1】本発明の乳化剤を用いて処理されたウォーター
・イン・オイル型エマルジョン(実施例1品)の状態を
示す顕微鏡写真(倍率×170倍)である。FIG. 1 is a micrograph (magnification × 170 times) showing the state of a water-in-oil type emulsion (Example 1 product) treated with the emulsifier of the present invention.
【図2】従来の乳化剤を用いて処理されたオイル・イン
・ウォーター型エマルジョン(比較例品)の状態を示す
顕微鏡写真(倍率×170倍)である。FIG. 2 is a micrograph (magnification × 170 times) showing a state of an oil-in-water emulsion (comparative example product) treated with a conventional emulsifier.
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) C10L 1/12 B01F 17/00 CAPLUS(STN) REGISTRY(STN) JICSTファイル(JOIS)─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. 7 , DB name) C10L 1/12 B01F 17/00 CAPLUS (STN) REGISTRY (STN) JISST file (JOIS)
Claims (9)
・イン・オイル型エマルジョンを形成するための乳化剤
であって、苛性ソーダと塩化カルシウムと水とを主成分
とすることを特徴とする重質油処理用乳化剤。1. An emulsifier for dispersing water particles in a heavy oil to form a water-in-oil type emulsion, which is mainly composed of caustic soda, calcium chloride and water. Emulsifier for treating oily substances.
(b)と水(c)との混合割合が、水(c)100リッ
トルに対して、苛性ソーダ(a)が5〜50kg、塩化
カルシウム(b)が5〜50kgの範囲に設定されてい
る請求項1記載の重質油処理用乳化剤。2. The mixing ratio of the caustic soda (a), calcium chloride (b) and water (c) is 5 to 50 kg of caustic soda (a) and calcium chloride (b) per 100 liters of water (c). ) Is set in the range of 5 to 50 kg, the emulsifier for treating heavy oil according to claim 1.
油である請求項1または2記載の重質油処理用乳化剤。3. The emulsifier for treating heavy oil according to claim 1, wherein the heavy oil is B heavy oil, C heavy oil or waste oil.
合して油処理用乳化剤を作製する工程と、処理対象とな
る重質油に水を添加し混合する混合工程と、上記水が混
合された重質油に上記重質油処理用乳化剤を添加し混合
する工程とを備えたことを特徴とする重質油処理方法。4. The step of mixing caustic soda, calcium chloride and water to prepare an emulsifier for oil treatment, the step of adding water to the heavy oil to be treated and mixing, and the above water. And a step of adding the emulsifier for treating heavy oil to the heavy oil and mixing them.
(b)と水(c)との混合割合が、水(c)100リッ
トルに対して、苛性ソーダ(a)が5〜50kg、塩化
カルシウム(b)が5〜50kgの範囲に設定されてい
る請求項4記載の重質油処理方法。5. The mixing ratio of the caustic soda (a), calcium chloride (b) and water (c) is 5 to 50 kg of caustic soda (a) and calcium chloride (b) per 100 liters of water (c). ) Is set in the range of 5 to 50 kg, the heavy oil treatment method according to claim 4.
C重油または廃油である請求項4または5記載の重質油
処理方法。6. The heavy oil to be treated is B heavy oil,
The heavy oil treatment method according to claim 4 or 5, which is C heavy oil or waste oil.
(e)との混合割合(d:e)が、重量比で、d:e=
95:5〜30:70の割合に設定されている請求項4
〜6のいずれか一項に記載の重質油処理方法。7. The mixing ratio (d: e) of the heavy oil (d) to be treated and the water (e) is a weight ratio of d: e =
The ratio is set to 95: 5 to 30:70.
The heavy oil treatment method according to any one of claims 1 to 6.
(e)との混合割合(d:e)が、重量比で、d:e=
70:30〜75:25の割合に設定されている請求項
4〜6のいずれか一項に記載の重質油処理方法。8. The mixing ratio (d: e) of the heavy oil (d) to be treated and the water (e) is a weight ratio of d: e =
The heavy oil treatment method according to any one of claims 4 to 6, wherein the ratio is set to 70:30 to 75:25.
油処理用乳化剤(Y)との混合割合(X:Y)が、重量
比で、X:Y=1:0.002〜1:0.003の割合
に設定されている請求項4〜9のいずれか一項に記載の
重質油処理方法。9. The mixing ratio (X: Y) of the heavy oil (X) mixed with the water and the emulsifier for heavy oil treatment (Y) is X: Y = 1: 0. The heavy oil treatment method according to any one of claims 4 to 9, wherein a ratio of 002 to 1: 0.003 is set.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17764097A JP3507873B2 (en) | 1997-06-17 | 1997-06-17 | Heavy oil processing emulsifier and heavy oil processing method using the same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17764097A JP3507873B2 (en) | 1997-06-17 | 1997-06-17 | Heavy oil processing emulsifier and heavy oil processing method using the same |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH115987A JPH115987A (en) | 1999-01-12 |
| JP3507873B2 true JP3507873B2 (en) | 2004-03-15 |
Family
ID=16034534
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP17764097A Expired - Fee Related JP3507873B2 (en) | 1997-06-17 | 1997-06-17 | Heavy oil processing emulsifier and heavy oil processing method using the same |
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| Country | Link |
|---|---|
| JP (1) | JP3507873B2 (en) |
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|---|---|---|---|---|
| KR100491936B1 (en) * | 2002-10-14 | 2005-05-30 | 박길원 | The method of making domposition added fuel oil for emulsifying of water and oil |
| CA2540071A1 (en) * | 2003-10-13 | 2003-10-13 | Ho Kyun Kim | Emulsion fuel and method of preparing the same |
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1997
- 1997-06-17 JP JP17764097A patent/JP3507873B2/en not_active Expired - Fee Related
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| Publication number | Publication date |
|---|---|
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