[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JPS59223222A - Manufacture of light granular alkali carbonate - Google Patents

Manufacture of light granular alkali carbonate

Info

Publication number
JPS59223222A
JPS59223222A JP9582883A JP9582883A JPS59223222A JP S59223222 A JPS59223222 A JP S59223222A JP 9582883 A JP9582883 A JP 9582883A JP 9582883 A JP9582883 A JP 9582883A JP S59223222 A JPS59223222 A JP S59223222A
Authority
JP
Japan
Prior art keywords
carbonate
alkali carbonate
alkali
light granular
thermally decomposable
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.)
Pending
Application number
JP9582883A
Other languages
Japanese (ja)
Inventor
Masaaki Kurumaya
車谷 政昭
Yutaka Ueda
豊 上田
Eiji Yamatoki
山時 英次
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tokuyama Corp
Original Assignee
Tokuyama Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Tokuyama Corp filed Critical Tokuyama Corp
Priority to JP9582883A priority Critical patent/JPS59223222A/en
Publication of JPS59223222A publication Critical patent/JPS59223222A/en
Pending legal-status Critical Current

Links

Landscapes

  • Glanulating (AREA)

Abstract

PURPOSE:To manufacture a light granular alkali carbonate having a low apparent specific gravity, a large surface area, superior flowability and mechanical strength by mixing an alkali carbonate with a thermally decomposable substance, granulating the mixture with a granulating agent, and calcining the resulting granules. CONSTITUTION:An alkali carbonate such as sodium carbonate is mixed with a thermally decomposable substance such as ammonium hydrogencarbonate or ammonium carbonate, and the mixture is granulated with an alkali silicate such as sodium silicate or an alkali hydroxide such as sodium hydroxide as a granulating agent. The resulting granules are calcined to obtain a light granular alkali carbonate such as sodium carbonate having <=0.6 apparent specific gravity and 200-1,000mum average grain size. high mechanical strength can be provided to the product by grinding the alkali carbonate and/or the thermally decomposable substance as starting materials to <=100mum average grain size before mixing them.

Description

【発明の詳細な説明】 本発明は軽質顆粒状炭酸アルカリの製造方、法に関し、
詳しくは見掛比重力1極めて小さく、流動性に優れ、表
面積の大きな、しかも良好な機械的強度を有する特に軽
質顆粒状炭酸ソーダの製造方法に関する。
[Detailed description of the invention] The present invention relates to a method for producing light granular alkali carbonate,
More specifically, the present invention relates to a method for producing especially light granular soda carbonate having an extremely small apparent specific gravity, excellent fluidity, a large surface area, and good mechanical strength.

一般にソーダ灰を水溶液状で使用する場合には、溶解速
度が速くかつ粉立ちの少ないことが要求される。しかし
ながら、現状の市販デンスソーダ灰(見掛比重1.2)
は粉立ちは少ないが冷水に溶解すると固結するという欠
点があり、逆にライトソーダ灰(見掛比重0.8)t;
tデンスソーダ灰より溶解性は良好であるが、デンスソ
ーダ灰に比べて粒径が小さいために粉立ちし作業がやり
にくいという欠点がある。
Generally, when soda ash is used in the form of an aqueous solution, it is required to have a fast dissolution rate and little dusting. However, the current commercially available dense soda ash (apparent specific gravity 1.2)
Light soda ash (apparent specific gravity 0.8) has the disadvantage that it clumps when dissolved in cold water, although it produces less powder.
Although it has better solubility than dense soda ash, it has the disadvantage that it is difficult to dust because the particle size is smaller than that of dense soda ash.

またソーダ灰は鉄鋼関係の溶銑の脱硫、脱燐に効果があ
るため広く使用されているが、ランス吹き込みでデンス
ソーダ灰を使用する場合には粒子比重が大きいためN2
で配管内に溜まり輸送し暖いという問題が生ずる。他方
、市販のライトソーダ灰を使用する場合には、粒径が小
さく粒子の有する慣性力が小さいために局部的に滞溜し
、反応が急速に終了するなどの原因により反応効率が低
下する欠点がある。したがって、粒子の真比重が小さく
、粒径の大きい、且つ表面積の大きなソーダ灰が求めら
れている。さらに洗剤業界においても洗濯用洗浄剤の嵩
密度を小さくするため、あるいは溶解速度を早くするた
めに、より見掛比重が小さく、比表面積の大きいソーダ
灰が要望されている。
In addition, soda ash is widely used because it is effective for desulfurization and dephosphorization of hot metal used in steelmaking, but when using dense soda ash by lance blowing, the particle specific gravity is large, so N2
This causes the problem that the water collects in the piping and is transported, causing it to become warm. On the other hand, when commercially available light soda ash is used, the disadvantage is that the particle size is small and the inertia of the particles is small, so they accumulate locally and the reaction ends rapidly, reducing the reaction efficiency. There is. Therefore, there is a demand for soda ash having a small true specific gravity, a large particle size, and a large surface area. Furthermore, in the detergent industry, there is a demand for soda ash with a lower apparent specific gravity and a larger specific surface area in order to reduce the bulk density of laundry detergents or to increase the dissolution rate.

したがって、本発明者らは上記に艦み、見掛比重が小さ
く、流動性に優れ、表面積の大きな且つ良好な強度全有
するソーダ灰全得るべく鋭意研究を重ねた。その結果、
炭酸アルカリに加熱分解性物質を混合して、造粒剤で粒
状化した後、該粒状化物全焼成することによって、所望
の軽質顆粒状炭酸アルカリが得られることを見出して、
本発明を提供するに至ったものである。
Therefore, in view of the above, the present inventors have conducted extensive research in order to obtain a soda ash that has a small apparent specific gravity, excellent fluidity, a large surface area, and good strength. the result,
It has been discovered that the desired light granular alkali carbonate can be obtained by mixing a thermally decomposable substance with an alkali carbonate, granulating it with a granulating agent, and then completely firing the granulated product,
This has led to the provision of the present invention.

即ち、本発明によれば、従来の見掛比重が0.8程度の
ライトソーダ灰に比べても、見掛比重が0.6以下、特
に03〜0.5であり、しかも現状のデンスソーダ灰と
同程度の機械的強度全有する軽質顆粒状ソーダ灰を得る
ことが可能である。
That is, according to the present invention, the apparent specific gravity is 0.6 or less, especially 03 to 0.5, compared to the conventional light soda ash, which has an apparent specific gravity of about 0.8, and the current dense soda ash. It is possible to obtain light granular soda ash having a total mechanical strength of the same order of magnitude.

本発明の原料である炭酸アルカリは目的とする軽質顆粒
状炭酸アルカリの種類に応じて選択すればよく、一般に
軽質顆粒状ソーダ灰全得るためには、アンモニア・ソー
ダ法により製造されるライトソーダ灰またはデンスソー
ダ灰が簡便に使用できる。また、加熱分解性物質として
は常温で安定であり、かつ分解によりガス体として散失
して残存しない物質が好ましい。一般的には分解温度が
40″〜120’Oである加熱分解性物質が推奨され具
体的には重俟酸アンモニウム、炭酸アンモニウムなどが
好適である。
The alkali carbonate that is the raw material of the present invention may be selected depending on the type of light granular alkali carbonate that is intended. Alternatively, dense soda ash can be easily used. Further, as the thermally decomposable substance, it is preferable to use a substance that is stable at room temperature, and is dispersed as a gas by decomposition and does not remain. Generally, thermally decomposable substances having a decomposition temperature of 40'' to 120'O are recommended, and specifically, ammonium dioxide, ammonium carbonate, etc. are suitable.

′!た、本発明においては上記した炭酸アルカリおよび
/または加熱分解性物質の原料全、粉砕などして平均粒
径100μ以下にして用いることが極めて有効果である
′! In addition, in the present invention, it is extremely effective to use all of the raw materials for the alkali carbonate and/or thermally decomposable substances by pulverizing them to an average particle size of 100 μm or less.

即ち、平均粒径100μにした原料を用いる場合には、
造粒剤により良好な粒状化物を製造できると共に、該粒
状化物全重焼しても崩壊が少なく、機械的強度全有する
軽質顆粒状炭酸アルカリを製造することが出来る。しか
しながら、平均粒径が100μより大きい原料を用いた
場合には、粒状化物を製造できても、置焼して得られる
軽質顆粒状炭酸アルカリの強度が十分でなく崩壊し易い
傾向がある。
That is, when using raw materials with an average particle size of 100μ,
By using a granulating agent, it is possible to produce a good granulated product, and even if the granulated product is completely burnt, it does not disintegrate easily, and it is possible to produce a light granular alkali carbonate having full mechanical strength. However, if a raw material with an average particle size larger than 100 μm is used, even if a granulated product can be produced, the strength of the light granular alkali carbonate obtained by baking is insufficient and tends to collapse.

本発明に用いる造粒剤としては、上記した炭酸アルカリ
と加熱分解性物質の混合物全粉状化し得るものであれば
特に制限されず、得られた軽質顆粒状炭酸アルカリが少
なくとも崩壊しない程度の強度を維持し得るものが望ま
しい。
The granulating agent used in the present invention is not particularly limited as long as it can completely pulverize the mixture of the above-mentioned alkali carbonate and heat-decomposable substance, and has a strength that at least does not disintegrate the resulting light granular alkali carbonate. It is desirable to have something that can maintain this.

また得られる軽質粒状炭酸アルカリの用途に応じて不純
物の残存を考慮して造粒剤を選択すればよい。一般には
無機質の造粒剤が好ましく用いられ、例えば珪酸アルカ
リ、苛性アルカリなどが用いられる。例えば、炭酸ソー
ダから軽質顆粒状炭酸ジープを製造する場合には、造粒
剤として液状の珪酸ソーダまたは苛性ソーダが好適に用
いられる。珪酸ソーダとしては一般にSiO2/Ha2
0のモル比が0.5〜3.5であるオルソ珪酸ソーダ、
メタ珪酸ソーダ、1〜3号珪酸ソーダが用いられる。ま
た苛性ソーダとしては、4〜48 wt%の水溶液を用
ψるのが好ましい。
Furthermore, the granulating agent may be selected depending on the intended use of the obtained light granular alkali carbonate, taking into consideration the remaining impurities. In general, inorganic granulating agents are preferably used, such as alkali silicate and caustic alkali. For example, when producing light granular carbonate jeep from soda carbonate, liquid sodium silicate or caustic soda is preferably used as the granulating agent. Sodium silicate is generally SiO2/Ha2
Sodium orthosilicate whose molar ratio of 0 is 0.5 to 3.5,
Sodium metasilicate and No. 1 to No. 3 sodium silicate are used. Further, as the caustic soda, it is preferable to use an aqueous solution of 4 to 48 wt%.

上記した如き炭酸ソーダ全珪酸ソーダ溶液で良好に粒状
化して、良好な軽質顆粒状炭酸ソーダ全得るためにL1
該珪酸ソーダ全SiO□として1〜50重量係、特に1
0〜30重量%の割合で含有させることが好ましい。こ
の場合1.顆粒状炭酸ソーダに含有されるSiO□が増
加するに従って、強度は大きくなるが、見掛比重も大き
くなる傾向を示す。また用途によっては軽質粒状炭酸ソ
ーダのSiO□含有量が、不純物として問題になる場合
がある。したがって、顆粒状炭酸ソーダに対する珪酸ソ
ーダの含有量は目的とする軽質粒状炭酸ソーダの用途、
見掛比重および強度を勘案して、上記した範囲から予め
任意に決定すればよい。
In order to obtain a good light granular form of sodium carbonate by granulating it with the above-described total sodium silicate solution, L1
The sodium silicate is 1 to 50% by weight as total SiO□, especially 1
It is preferable to contain it in a proportion of 0 to 30% by weight. In this case 1. As the SiO□ contained in the granular soda carbonate increases, the strength increases, but the apparent specific gravity also tends to increase. Further, depending on the use, the SiO□ content of light granular soda carbonate may become a problem as an impurity. Therefore, the content of sodium silicate in granular soda carbonate is determined based on the intended use of light granular soda carbonate.
It may be arbitrarily determined in advance from the above range, taking into consideration the apparent specific gravity and strength.

一方、造粒剤として苛性ソーダを用いる場合には、上記
の珪酸ソーダに比べて得られる軽質顆粒状炭酸ソーダに
不純物の含有が回避できるために有効である。
On the other hand, when caustic soda is used as a granulating agent, it is more effective than the above-mentioned sodium silicate because the resulting light granular soda carbonate can avoid containing impurities.

苛性ソーダを使用した場合には珪曹の場合と逆に添加量
増大するにど、見掛比重は低下し、強度も増大する傾向
にある。しかしある一定量をこえると見掛比重は増大す
る。かかる炭酸ソーダを良好に粒状化させるためには、
苛性ソーダ1該重炭酸ソーダに対して1.5〜100%
、望ましくけ3〜20%含有させることが好ましψ。
When caustic soda is used, the apparent specific gravity tends to decrease and the strength tends to increase as the amount added increases, contrary to the case of silica. However, beyond a certain amount, the apparent specific gravity increases. In order to granulate such carbonated soda well,
Caustic soda 1.5-100% based on the bicarbonate of soda
, it is preferable to contain ψ in an amount of 3 to 20%.

ただ苛性ソーダ全造粒剤として用いた場合には、珪酸ソ
ーダに比べて得られる軽質顆粒状炭酸ソーダの強度が少
し劣る。したがって、造粒剤として苛性ソーダと珪酸ソ
ーダの混合物を用いる施とにより、目的とする軽質顆粒
状炭酸ソーダの13102含有量と強度全適当に調節す
ることが可能である。
However, when caustic soda is used as a total granulating agent, the strength of the light granular soda carbonate obtained is slightly inferior to that of sodium silicate. Therefore, by using a mixture of caustic soda and sodium silicate as a granulating agent, it is possible to appropriately adjust the 13102 content and strength of the desired light granular soda carbonate.

本発明において、炭酸アルカリに混合する加熱分解性物
・質の割合は両者の種類により異なり、−概に決定され
ない。一般に炭酸ソーダに対する加熱分解性物質の割合
を増加させることによって、目的とする軽質顆粒状炭酸
アルカリの見掛比重を小さくすることが出来る。しかし
ながら、加熱分解性物質の混合割合が多すぎる場合には
、軽質顆粒状炭酸ソーダの強度が低下する問題が生じる
。したがって、例えば、炭酸ソー  。
In the present invention, the ratio of the thermally decomposable substance/material to be mixed with the alkali carbonate varies depending on the type of the two, and is generally not determined. Generally, by increasing the ratio of the thermally decomposable substance to soda carbonate, the apparent specific gravity of the target light granular alkali carbonate can be reduced. However, if the mixing ratio of the thermally decomposable substance is too large, a problem arises in that the strength of the light granular soda carbonate decreases. So, for example, carbonated soda.

ダに対して社訓熱分解性物質を一般に25〜100%の
範囲で混合することが望ましい。
Generally, it is desirable to mix 25 to 100% of the company's thermally decomposable material with respect to the amount of the powder.

本発明の上記した炭酸アルカリと加熱分解性物質との粒
状化物は、平均粒径を一般に0.2〜10s+15好ま
しく祉0.5〜5imに維持することが、所望の軽質顆
粒状炭酸アルカリを得るために極めて重要である。即ち
、粒状化物の平均粒径が0.2nより小さい場合に祉、
粒立ちが多く作業性全悪化させるばかりでなく得られる
軽質顆粒状炭酸アルカリの見掛比重を十分に小さくする
ことが出来ない。また、粒状化物の平均粒径が・10g
mより大きい場合には、得られる軽質顆粒状炭酸アルカ
リの粉砕分級などを要するばかりでなく、強度的にも崩
壊し易い欠点がある。
In the granulated product of the above-mentioned alkali carbonate and thermally decomposable substance of the present invention, the average particle size is generally maintained at 0.2 to 10s+15, preferably 0.5 to 5im, to obtain the desired light granular alkali carbonate. This is extremely important. That is, when the average particle size of the granulated material is smaller than 0.2n,
Not only is there a lot of granulation, which deteriorates the overall workability, but also the apparent specific gravity of the resulting light granular alkali carbonate cannot be made sufficiently small. In addition, the average particle size of the granulated material is ・10g
When it is larger than m, not only does it require pulverization and classification of the resulting light granular alkali carbonate, but it also has the disadvantage of being easily disintegrated in terms of strength.

本発明における造粒銀焼方法は特に制限されず、予め粒
状化した後恢焼してもよく、あるいは造粒と舷焼を同時
に行うような方法でもよく、公知の種々の造粒方法が適
用できる。特に所望の均一な粒状化物を工業的に得るた
めには、墳霧造粒法、流動層造粒法、転動造粒法が推奨
される。仮焼温度は加熱分解性物質が少くとも分解する
温度以上であることが必要であり、一般に120℃以上
、特[150〜250℃(04度で歿焼することによっ
て所望の軽質顆粒状炭撒ソーダが得られる。
The method of granulation and firing in the present invention is not particularly limited, and it may be granulated in advance and then fired, or it may be a method in which granulation and firing are performed simultaneously, and various known granulation methods can be applied. can. Particularly, in order to industrially obtain the desired uniform granulated product, the atomization granulation method, the fluidized bed granulation method, and the rolling granulation method are recommended. The calcination temperature must be at least the temperature at which the thermally decomposable substance decomposes, and is generally 120°C or higher, particularly 150 to 250°C (04°C) to form the desired light granular charcoal. You get soda.

本発明によれば、得られる軽質顆粒状炭酸アルカリは、
炭酸アルカリが造粒剤により予め強固に粒状化された形
態を維持したまま焼成され多孔化されるために、見掛比
重が極めて小さく、崩壊の少ない機械的強度を有する。
According to the present invention, the light granular alkali carbonate obtained is
Since the alkali carbonate is fired and made porous while maintaining its strongly granulated form using a granulating agent, the alkali carbonate has an extremely low apparent specific gravity and has mechanical strength that prevents disintegration.

したがって、本発明の軽質顆粒状炭酸アルカリは、平均
粒径10〜1000μで、見掛比重が一般に06以下、
特に0.3〜0,5と小さく、流動性に優れ、しかも良
好な機械的強度を有し、飛散ロスも少ない利点1有する
Therefore, the light granular alkali carbonate of the present invention has an average particle size of 10 to 1000μ, an apparent specific gravity of generally 0.6 to 0.06,
In particular, it has the advantage of having a small size of 0.3 to 0.5, excellent fluidity, good mechanical strength, and little scattering loss.

以下、本発明の実施例を示すが、本発明はこれに限定さ
れるものでない。なお、実施例における見掛比重および
崩壊性の測定方法は下記によった。
Examples of the present invention will be shown below, but the present invention is not limited thereto. In addition, the apparent specific gravity and disintegration property in Examples were measured as follows.

(1)見掛比重(J工5K−1462準拠)見掛比重、
試料450m〜500m全重量既知のメスシリンダー5
00MIKとり、(IJFの精度ではかる。)シリンダ
ーをゴム板上で軽くたたき容量の差の出なくなったと、
きの容量TtV(1)とし、次式によって算出した。
(1) Apparent specific gravity (according to J Engineering 5K-1462) Apparent specific gravity,
Sample 450m~500m Total weight known measuring cylinder 5
00 MIK (measured with IJF accuracy), tap the cylinder lightly on a rubber plate and find that there is no difference in capacity.
The capacitance TtV (1) was calculated using the following formula.

見掛比重=□  8;試料の重さ V (2J  崩壊性(米国軍用規格 M工IPL−202
13Dに準拠) 試料50.019(250〜1000μに分級したもの
)、8−のスチールボール15ケを試験容器に入れロー
タツブ篩試験機で30分間振動させる。終了後容器の試
料1再び125μで5分間分級し、125μアンダーの
重量を測定(0,1gの精度)しその値を2倍して重2
量%に換算したものを崩壊性の値とした。
Apparent specific gravity = □ 8; Weight of sample V (2J Disintegration (US military standard M engineering IPL-202
13D) Sample 50.019 (classified to 250 to 1000μ), 15 steel balls of 8- are placed in a test container and vibrated for 30 minutes using a Rotatub sieve tester. After finishing sample 1 in the container, classify it again at 125μ for 5 minutes, measure the weight under 125μ (accuracy of 0.1g), and double that value to get the weight 2.
The disintegration value was calculated as a weight percent.

数値が小さい方が強度があり望ましい。The smaller the number, the stronger and desirable it is.

実施例 1 それぞれ粉砕して平均粒径100μ以下にした炭酸ソー
ダと炭酸アンモニウムを重量比でl:lの割合で混合し
て回転ドラムに入れ、100℃の熱風で水分を飛ばしな
がら、珪曹溶液をスプレーする転勤造粒法を用いて81
0□含有量を第1表に示すように変化させた重炭酸ソー
ダの顆粒状物を作り、これYt200℃で3時間靜焼し
て目的の軽質顆粒状ソーダ灰全得た。このものの見掛比
重、および崩壊往管以下に示す。
Example 1 Soda carbonate and ammonium carbonate, each pulverized to an average particle size of 100μ or less, were mixed at a ratio of 1:1 by weight and placed in a rotating drum, and a silica solution was blown off with hot air at 100°C. 81 using transfer granulation method to spray
Granules of bicarbonate soda having a content of 0□ varied as shown in Table 1 were prepared and baked at Yt200°C for 3 hours to obtain the desired light granular soda ash. The apparent specific gravity of this material and the disintegrating tube are shown below.

第  1  表 比較例 1 実施例−1において炭酸アンモニウムを混合しないで炭
酸ソーダのみで8102含有量を変化させて軽質顆粒状
ソーダ灰を得た。このものの見掛比重、崩壊性を第2表
に示す。
Table 1 Comparative Example 1 In Example 1, light granular soda ash was obtained by changing the 8102 content by using only soda carbonate without mixing ammonium carbonate. The apparent specific gravity and disintegration properties of this material are shown in Table 2.

第   2   表 実施例 2 実施例−1と同一条件で造粒剤のみを、珪酸ソーダから
苛性ソーダに変えて炭酸ソーダに対す々添加量を変化さ
せて目的の軽質顆粒状ソーダ灰を得た。このものの見掛
比重および崩壊性を第3表に示す。
Table 2 Example 2 Under the same conditions as in Example 1, only the granulating agent was changed from sodium silicate to caustic soda and the amount added to soda carbonate was varied to obtain the desired light granular soda ash. Table 3 shows the apparent specific gravity and disintegration properties of this product.

第   3   表Table 3

Claims (1)

【特許請求の範囲】 l)炭酸アルカリに加熱分解性物質を混合して、造粒剤
で粒状化し、焼成することを特徴とする軽質顆粒状炭酸
アルカリの製造方法 2)炭酸アルカリが炭酸ソーダである特許請求の範囲第
1項記載り一防も 3)加熱分解性物質が重炭酸アンモニウムま麺は炭酸ア
ンモ゛ニウムである特許請求の範囲第1項記載の製造方
法 4)造粒剤が珪酸アルカリである特許請求の範囲第1項
記載の製造方法 5)珪酸アルカリが珪酸ソーダである特許請求の範囲第
4項記載の製造方法 6)造粒剤が苛性アルカリである特許請求の範囲第1項
記載の製造方法 7)苛性アルカリカ1苛性ソーダである特許請求0II
iH第C項記載の製造方法 8)軽質粒状炭酸アルカリの見掛比重である特許請求の
範囲第1項記載の製造方法 9)軽質顆粒状炭酸アルカリの平均粒径が200〜10
00μである特許請求の範囲第1項記載の製造方法 lO)炭酸アルカリの平均粒径が100μ以下である特
許請求の範囲第1項記載の製造方法11)加熱分解性物
質の平均粒径が100μ以下である特許請求の範囲第1
項記載の製造方法
[Claims] l) A method for producing a light granular alkali carbonate, which comprises mixing an alkali carbonate with a thermally decomposable substance, granulating it with a granulating agent, and firing it. 2) A method for producing a light granular alkali carbonate, which comprises mixing an alkali carbonate with a thermally decomposable substance, granulating it with a granulating agent, and firing it. 3) The thermally decomposable substance is ammonium bicarbonate. The manufacturing method according to claim 1, wherein the noodles are ammonium carbonate. 4) The granulating agent is silicic acid. 5) The manufacturing method according to claim 4, where the alkali silicate is sodium silicate; 6) The manufacturing method according to claim 4, where the granulating agent is a caustic alkali. 7) Caustic Alkaline Lika 1 Caustic Soda Patent Claim 0II
8) The manufacturing method described in claim 1, wherein the apparent specific gravity of the light granular alkali carbonate is 9) The average particle size of the light granular alkali carbonate is 200 to 10.
10) The manufacturing method according to claim 1, in which the average particle size of the alkali carbonate is 100 μm or less 11) The average particle size of the thermally decomposable substance is 100 μm Claim 1 which is as follows:
Manufacturing method described in section
JP9582883A 1983-06-01 1983-06-01 Manufacture of light granular alkali carbonate Pending JPS59223222A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP9582883A JPS59223222A (en) 1983-06-01 1983-06-01 Manufacture of light granular alkali carbonate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP9582883A JPS59223222A (en) 1983-06-01 1983-06-01 Manufacture of light granular alkali carbonate

Publications (1)

Publication Number Publication Date
JPS59223222A true JPS59223222A (en) 1984-12-15

Family

ID=14148257

Family Applications (1)

Application Number Title Priority Date Filing Date
JP9582883A Pending JPS59223222A (en) 1983-06-01 1983-06-01 Manufacture of light granular alkali carbonate

Country Status (1)

Country Link
JP (1) JPS59223222A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01226716A (en) * 1988-03-04 1989-09-11 Asahi Glass Co Ltd Production of granular carbonate from caustic alkali

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01226716A (en) * 1988-03-04 1989-09-11 Asahi Glass Co Ltd Production of granular carbonate from caustic alkali

Similar Documents

Publication Publication Date Title
US4715979A (en) Granular detergent compositions having improved solubility
CA1275019A (en) Granular detergent compositions having improved solubility
KR101965007B1 (en) Manufacturing method for molten glass and manufacturing method for glass article
US2874123A (en) Process for the preparation of granular compositions
JPH05309255A (en) Production of salt granule
US3361675A (en) Dry-mixed detergent compositions
US3821119A (en) Silicated soda ash
US3726697A (en) Glass manufacture from prereacted batch and composition
JPH0326795A (en) Zeolite aggregation process and product
JPH05208809A (en) Production of silicate granule
US3738938A (en) Carbonate composition and process
US10435328B2 (en) Expanded-glass granular material and method for producing same
CA1069013A (en) Production of detergent compositions
JPS59223222A (en) Manufacture of light granular alkali carbonate
AU597909B2 (en) Granular detergent compositions having improved solubility
JPS59223221A (en) Light granular alkali carbonate and its manufacture
JPH0631430B2 (en) Method for producing high bulk density granular detergent composition
US3157649A (en) Examine
JPH09255383A (en) Production of super lightweight aggregate
JP3217373B2 (en) Method for producing crystalline inorganic ion exchanger
JPH0569044B2 (en)
EP0974641A1 (en) Homogenous granules comprised of sodium tripolyphosphate, sodium sulphate and sodium carbonate, process for its preparation and applications to detergents and washing agents
US3635837A (en) Spray-formed sodium nitrate
JPH0694559B2 (en) Method for producing high bulk density synthetic granular detergent
JPH0513890B2 (en)