ozone chemistry and technology - American Chemical Society

0. 10. 20. 30. 40. 50. 60. OZONE PARTIAL PRESSURE, MM. OF HG. Figure 1. Adsorption isotherms at 0° and 25° C. for ozone in oxygen on Davison silica ...
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Separation of Ozone from Oxygen by a Sorption Process G. A. COOK, A. D. KIFFER, C. V. KLUMPP, A. H. MALIK, and L. A. SPENCE

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Research and Development Laboratory, Liηde Co., A Division of Union Carbide Tonawanda, Ν. Y.

Corp.,

O z o n e is separated from oxygen by adsorption on refrigerated silica gel, followed by desorption, either in pure form at reduced pressure, or diluted by air, nitrogen, argon, or other gas not strongly adsorbed on silica gel. This is a practical method, free from hazard when correctly performed.

T h e r e a r e s e v e r a l reasons w h y i t m i g h t be d e s i r a b l e t o s e p a r a t e ozone f r o m o x y g e n . B e c a u s e ozone is u s u a l l y p r o d u c e d i n c o n c e n t r a t i o n s of o n l y 1 t o 4 m o l e % i n a s t r e a m of a i r o r o x y g e n , a n y o n e w i s h i n g t o use m o r e c o n c e n t r a t e d ozone, o r ozone i n t h e absence of o x y g e n , m u s t s e p a r a t e t h e t w o gases. I n a l a r g e p l a n t i t is m o r e e c o n o m i c a l t o p r o d u c e ozone f r o m o x y g e n t h a n f r o m a i r , i f t h e u n c o n v e r t e d o x y g e n c a n b e s e p a r a t e d c h e a p l y e n o u g h f r o m t h e ozone a n d r e c y c l e d t o t h e ozone g e n e r a t o r . T h e s e p a r a t i o n m a y be a c c o m p l i s h e d i n s e v e r a l w a y s . O n e w a y is c o n d e n s i n g t h e ozone o u t as a l i q u i d a t a l o w t e m p e r a t u r e a n d t h e n p u m p i n g off a n y o x y g e n t h a t c o n ­ densed a l o n g w i t h t h e o z o n e ; t h i s presents t h e h a z a r d s of h a n d l i n g c o n c e n t r a t e d l i q u i d ozone, a t o u c h y a n d b r i s a n t e x p l o s i v e . A n o t h e r p o s s i b i l i t y is t o pass t h e gas s t r e a m t h r o u g h a s o l v e n t w h i c h w i l l d i s s o l v e t h e ozone w h i l e l e t t i n g m o s t of t h e o x y g e n pass t h r o u g h . E a r l y i n 1948 t h e a u t h o r s discovered that cold, liquid dichlorodifluoromethane ( C F C 1 ) , chlorotrifluoromethane ( C F C 1 ) , o r m i x t u r e s of t h e t w o , c o u l d be u s e d f o r t h i s p u r p o s e . E v a p o r a t i n g ozone gas f r o m one of these s o l v e n t s e n t a i l s a loss of s o l v e n t a n d is s o m e w h a t h a z a r d o u s ; i t s h o u l d b e d o n e o n l y w i t h s u i t a b l e p r e c a u t i o n s , p r e f e r a b l y a t l o w p a r t i a l p r e s s u r e of ozone. A safer w a y of r e c o v e r i n g t h e ozone is t o b l o w i t o u t w i t h a s t r e a m of some gas, s u c h as n i t r o g e n o r a i r , t h a t is n o t a p p r e c i a b l y soluble i n t h e h a l o g e n a t e d m e t h a n e solvent. 2

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A n o t h e r w a y of s e p a r a t i n g o x y g e n f r o m ozone is t o pass t h e m i x t u r e t h r o u g h a vessel c o n t a i n i n g m a t e r i a l t h a t w i l l r e a c t w i t h t h e ozone. T h e o x y g e n t h a t passes t h r o u g h t h e vessel is p u r i f i e d , i f necessary, a n d r e c y c l e d t o t h e ozone g e n e r a t o r . This m e t h o d is s a t i s f a c t o r y i f t h e presence of o x y g e n i n t h e ozone r e a c t i o n vessel is n o t harmful. A m e t h o d w h i c h is free of h a z a r d i f p e r f o r m e d c o r r e c t l y , a n d represents a p r a c t i c a l w a y of s e p a r a t i n g ozone f r o m o x y g e n , consists o f a d s o r b i n g ozone o n r e f r i g e r a t e d s i l i c a gel a n d t h e n d e s o r b i n g i t , e i t h e r i n p u r e f o r m a t r e d u c e d p r e s s u r e , o r d i l u t e d b y a i r , n i t r o g e n , a r g o n , o r o t h e r gas n o t s t r o n g l y a d s o r b e d o n s i l i c a g e l . 44

OZONE CHEMISTRY AND TECHNOLOGY Advances in Chemistry; American Chemical Society: Washington, DC, 1959.

COOK, KIFFER, KLUMPP, MALIK, A N D SPENCE—SEPARATION FROM

Adsorption

of O z o n e o n Silica

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I n 1950 extensive m e a s u r e m e n t s w e r e m a d e of t h e a d s o r p t i o n of ozone i n t h e presence of o x y g e n o n c o m m e r c i a l G r a d e 4 0 a n d P A 100 s i l i c a g e l p u r c h a s e d f r o m D a v i s o n C h e m i c a l C o r p . T h e technique used i n measuring the adsorption was simple. A s t r e a m of d r y o x y g e n a t a t m o s p h e r i c pressure a n d c o n t a i n i n g a k n o w n c o n c e n t r a t i o n of ozone w a s passed t h r o u g h a vessel i m m e r s e d i n a b a t h k e p t a t a c o n s t a n t , k n o w n temperature. T h e vessel c o n t a i n e d a k n o w n w e i g h t of s i l i c a g e l f r e s h f r o m D a v i s o n , a n d n o t t r e a t e d i n a n y w a y before b e i n g u s e d . T h e d i l u t e s t r e a m of ozone i n o x y g e n was passed t h r o u g h t h e b e d of s i l i c a gel u n t i l t h e c o n c e n t r a t i o n of ozone i n t h e off-gas was e q u a l t o t h a t i n t h e e n t e r i n g gas. T h e o z o n e - o x y g e n flow w a s t h e n s t o p p e d a n d

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Figure 1. Adsorption isotherms at 0 ° a n d 2 5 ° C. for ozone in oxygen on Davison silica gel Total pressure 1 atm.

a s t r e a m of p u r e , d r y o x y g e n w a s passed t h r o u g h t h e s i l i c a g e l a n d i n t o a s o l u t i o n of p o t a s s i u m i o d i d e i n w a t e r . W h e n a l l t h e ozone h a d b e e n d e s o r b e d , t h e l i b e r a t e d i o d i n e was t i t r a t e d w i t h s t a n d a r d s o d i u m t h i o s u l f a t e s o l u t i o n (1). T h e i s o t h e r m s o b t a i n e d f o r 0 ° a n d 2 5 ° C . a r e s h o w n i n F i g u r e 1, a n d f o r l o w e r t e m p e r a t u r e s i n F i g u r e 2. T h e a d s o r p t i o n a t 0 ° C . w a s v e r y m u c h less t h a n t h a t at —78° C . a n d below. ( T h e u n i t s f o r t h e o r d i n a t e i n F i g u r e 1 a r e i n p o u n d s of ozone p e r 1000 p o u n d s of g e l ; i n F i g u r e 2, i n p o u n d s of ozone p e r 100 p o u n d s of gel.) I n f o r m a t i o n f r o m D a v i s o n i n d i c a t e d t h a t t h e t w o grades of s i l i c a g e l differed o n l y i n p a r t i c l e size, G r a d e 4 0 b e i n g 6 t o 12 m e s h , a n d P A 100 b e i n g 14 t o 20 m e s h . Dif­ ferences i n ozone a d s o r p t i o n b e t w e e n t h e t w o grades were w i t h i n e x p e r i m e n t a l e r r o r .

OZONE CHEMISTRY AND TECHNOLOGY Advances in Chemistry; American Chemical Society: Washington, DC, 1959.

Downloaded by RUTGERS UNIV on March 15, 2016 | http://pubs.acs.org Publication Date: January 1, 1959 | doi: 10.1021/ba-1959-0021.ch007

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ADVANCES

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IN CHEMISTRY SERIES

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OZONE PARTIAL PRESSURE, MM. OF HG.

Figure 2. Smoothed adsorption isotherms for ozone in oxygen on Davison silica gel at temperatures ranging from - 7 8 . 5 ° t o - 1 4 0 ° C. Total pressure 1 atm.

A d s o r p t i o n of o x y g e n , a r g o n , a n d n i t r o g e n o n s i l i c a g e l w a s m e a s u r e d a n d f o u n d to b e v e r y s m a l l c o m p a r e d t o t h e a d s o r p t i o n of ozone. T h e h e a t of a d s o r p t i o n of ozone o n s i l i c a g e l w a s c a l c u l a t e d f o r v a r i o u s c o n d i t i o n s w i t h t h e h e l p of t h e C l a u s i u s - C l a p e y r o n e q u a t i o n ( F i g u r e 3 ) . I n t h e r e g i o n of t e m p e r ­ a t u r e a n d ozone c o n c e n t r a t i o n of m o s t i n t e r e s t , t h e h e a t of a d s o r p t i o n i s a b o u t 5400 c a l . p e r g r a m - m o l e of ozone. O n l y t w o p a p e r s g i v e d a t a f o r ozone a d s o r p t i o n o n s i l i c a g e l . T h e r e s u l t s r e p o r t e d b y M a g n u s a n d G r a n t i n g (3) a p p e a r t o b e i n g o o d a g r e e m e n t w i t h t h e p r e s e n t w o r k , a l t h o u g h t h e i r m e t h o d of r e p o r t i n g is s o m e w h a t a m b i g u o u s . B r i n e r a n d L a c h m a n n (2) m a d e o n l y s i x i s o l a t e d e x p e r i m e n t a l m e a s u r e m e n t s . T h e r e s u l t s of t h r e e of these a r e

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