Encyclopedia of Environmental Science and Engineering, Volume I and II

240 DISINFECTION

The disinfection of fermentation laboratories has been

described by Darlow (1969). Gaseous disinfectants may be

employed, and aerosols appear to have an important role to

play. Local disinfection of bench tops, floors, etc. is also a

standard practice. The importance of disinfectants in water

conservation is emphasized by Fielden (1969), and in the

pharmaceutical industry by Underwood (1980).

The control of airborne microorganisms is of particu-

lar importance in the fermentation industry, in laboratories

where strict asepsis is essential (e.g., in the production of

various sterile products in the pharmaceutical industry and

in hospital pharmacy departments, as well as in the rearing

of germ-free animals), in hospital wards to reduce the inci-

dence of cross-infection, and in special wards set aside for

patients with a rare disease (hypogammaglobulinaemia) who

are particularly sensitive to infection.

This control is normally achieved by the use of special

air filters, often in conjunction with ultraviolet lamps to

irradiate the upper atmosphere. Disinfectants in the form

of aerosols are also of importance in aerial disinfection. To

be effective for air disinfection, a chemical should ideally

possess the following properties:

1) be odorless, cheap and stable

2) be without toxic or irritant properties

3) be capable of being dispersed in the air, with con-

sequent complete and rapid mixing of infected air

and chemical

4) be capable of maintaining an effective concentra-

tion in the air

5) be highly and rapidly effective against airborne

organisms

6) be unaffected by relative humidity (RH).

Aerosols consist of a very fine dispersed liquid phase

in a gaseous (air) continuous phase. The germicide must

be nebulized in sufficiently fine spray (aerosols droplets

of <1 μ m are the accepted standard) so that it will remain

airborne and thus have ample opportunity to collide with

any microorganisms present in the air. At low RH, particles

are too dry for adequate condensation of the disinfectant

that such organisms enclosed in particles, and thus bacteria

occurring on dust or on surfaces are much less susceptible

to the aerial disinfectant than such organisms enclosed

in droplets (Sykes, 1965). The optimum RH is usually c.

40–60%.

Chemical aerosols are often generated in the following

manner: if the chemical is liquid, it may be sprayed directly

into the air from an atomizer; if the chemical exists as a

solid, it may be dissolved in an appropriate solvent, e.g.,

propylene glycol, and atomized, or alternatively the solid

may be vaporized by heat from a thermostatically-con-

trolled hot-plate.

Chemicals which have been used as aerial disinfectants

include hexylresorcinol, lactic acid, propylene glycol (this

possesses antimicrobial activity in its own right), hypo-

chlorous acid, formaldehyde gas and sulphur dioxide.

Other Uses of Antimicrobial Agents

Antimicrobial agents are widely employed as preservatives

in pharmaceutical and cosmetic products. Factors influenc-

ing their activity, as well as those governing their choice in

different classes of sterile or non-sterile products have been

well considered by Bean (1972), Croshaw (1977), Parker

(1978, 1982), Kazmi and Mitchell (1978a,b), Allwood

(1980) and Beveridge (1980).

Preservation is also required in other specialized areas,

e.g., in cutting oils (Hill, 1982a), fuels (Hill, 1982b), paper and

pulp (Weir, 1982), wood (Richardson, 1982), paint (Springle

and Briggs, 1982) and textiles (Hugo, 1982b) and in the con-

struction industry (Bravery, 1982). A most important aspect

concerns the use of chemical food preservatives and this has

been comprehensively reviewed by Sofos and Busta (1982).

REFERENCES

1. Abbot, C.F., J. Cockton, and W. Jones, 1956, J. Pharm. Pharmac.,
   8, 709.


2. Albert, A., 1963, Adv. Appl. Microbiol., 5, 1.


3. Alder, V.G., A.M. Brown, and W.A. Gillespie, 1966, J. Clin. Path.,
   19, 83.


4. Alder, V.G. and R. Simpson, 1982, in Principles and Practice of
   Disinfection, Preservation and Sterilisation, Ed., A.D. Russell, W.B.
   Hugo, and G.A.J. Ayliffe, Blackwell Scientific Publications, Oxford.


5. Allawala, N.A. and S. Riegelman, 1953, J. Am. Pharm. Ass., Sci. Ed.,
   42, 396.


6. Allen, H.F. and J.T. Murphy, 1960, J. Am. Med. Ass., 172, 1759.


7. Allwood, M.C., 1980, in Pharmaceutical Microbiology, 2nd Edition,
   Ed., W.B. Hugo and A.D. Russell, Blackwell Scientific Publications,
   Oxford.


8. Association of Official Agricultural Chemists, 1970, Official Methods
   of Analysis of the AOAC, Washington, DC.


9. Ayliffe, G.A.J. and B. Collins, 1982, in Principles and Practice of
   Disinfection, Preservation and Sterilisation, Ed., A.D. Russell, W.B.
   Hugo and G.A.J. Ayliffe, Blackwell Scientific Publications, Oxford.


10. Ball, E.L., A.C. Dornbrush, G.M. Sieger, F.E. Stirn, J.C. Vitucci, and
    J.F. Weidenheimer, 1961, Appl. Microbiol., 9, 269.


11. Barrett, M., 1969, Process Biochem., 4, 23.


12. Barwell, C.F. and M.A.R. Freeman, 1959, Lancet, i, 917.


13. Bean, H.S., 1967, J. Appl. Bact., 30, 6.


14. Bean, H.S., 1972, J. Soc. Cosmet. Chem., 23, 703.


15. Bean, H.S. and A. Das, 1966, J. Pharm. Pharmac., 18, 107S.


16. Bean, H.S. and S.M. Heman-Ackah, 1964, J. Pharm. Pharmac.,
    16, 58T.


17. Bean, H.S. and V. Walters, 1955, J. Pharm. Pharmac., 7, 661.


18. Beeby, M.M. and C.E. Whitehouse, 1965. J. Appl. Bact., 28, 349.


19. Benarde, M.A., W.B. Snow, V.P. Olivieri, and B. Davidson, 1967,
    Appl. Microbiol., 15, 257.


20. Bennett, E.O., 1959, Adv. Appl. Microbiol., 1, 49.


21. Berry, H., 1951, J. Pharm. Pharmac., 3, 689.


22. Berry, H., and H.S. Bean, 1954, J. Pharm. Pharmac., 7, 224.


23. Berry, H., and A. Briggs, 1956, J. Pharm. Pharmac., 8, 1143.


24. Berry, H., A.M. Cook, and B.A. Wills, 1956, J. Pharm. Pharmac.,
    8, 425.


25. Berry, H., E. Jensen, and F.K. Silliker, 1937, Quart. J. Pharm. Phar-
    mac., 11, 729.


26. Beveridge, E.G., 1980, in Pharmaceutical Microbiology, 2nd Edition.
    Edition. Ed., W.B. Hugo and A.D. Russell, Blackwell Scientific Pub-
    lications, Oxford.


27. Blatt, R. and J.V. Moloney, 1961, Surg. Gynaec. Obstet., 113, 699.


28. Borick, P.M., 1968, Adv. Appl. Microbiol., 10, 291.


29. Borick, P.M., 1970, in Disinfection, Ed., M.A. Benarde, Marcel
    Dekker, New York.

C004_002_r03.indd 240C004_002_r03.indd 240 11/18/2005 10:19:31 AM11/18/2005 10:19:31 AM