Skip Nav Destination
ASTM Selected Technical Papers
Pesticide Formulations and Application Systems: Eighth VolumeAvailable to Purchase
By
DA Hovde,
DA Hovde
1
DeSoto, Inc.
, Fort Worth, Texas
; symposium chairman and editor
Search for other works by this author on:
GB Beestman
GB Beestman
2
Monsanto Company
, St. Louis, Missouri
; symposium co-chairman and editor
Search for other works by this author on:
ISBN-10:
0-8031-0979-2
ISBN:
978-0-8031-0979-7
No. of Pages:
301
Publisher:
ASTM International
Publication date:
1989
eBook Chapter
Droplet and Deposit Patterns of One Pseudoplastic and Three Newtonian Spray Mixtures Following Spray Application Under Laboratory Conditions Available to Purchase
By
A Sundaram
A Sundaram
1Dr. Alam Sundaram is a
Research Scientist and Project Leader for Pesticide Formulations Project
at Government of Canada, Canadian Forestry Service, Forest Pest Management Institute
, 1219 Queen Street East
, P.O. Box 490, Sault Ste. Marie, Ontario,
Canada
P6A 5M7
Search for other works by this author on:
Page Count:
17
-
Published:1989
Citation
Sundaram, A. "Droplet and Deposit Patterns of One Pseudoplastic and Three Newtonian Spray Mixtures Following Spray Application Under Laboratory Conditions." Pesticide Formulations and Application Systems: Eighth Volume. Ed. Hovde, D, & Beestman, G. 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959 : ASTM International, 1989.
Download citation file:
A pseudoplastic spray mixture was prepared from fenitrothion, polymeric adjuvants and humectants. Three Newtonian spray mixtures were prepared, one each from fenitrothion, aminocarb and mexacarbate respectively, using oils, surfactants and cosolvents. The spray mixtures were sprayed over potted seedlings of balsam fir using a spinning disc atomizer, at an application rate of 1.5 L/ha. Aminocarb and mexacarbate were each sprayed at 70 g active ingredient (AI)/ha, whereas fenitrothion, at 210 g AI/ha. Spray droplets were sampled with Kromekote® cards and deposits were collected on glass plates. Foliar droplets were counted and pesticide concentrations were measured by gas-liquid-chromatography. Physical properties measured were: viscosity-shear rate relationship, surface tension and volatility. The data indicated that the presence of the polymeric adjuvants imparted pseudoplastic behavior to the spray medium. Because of this, the mixture provided a markedly larger droplet size spectrum and much greater deposit concentrations of the insecticide both on conifer foliage and on the sampling units.
References
1.
Kaupke
, C. R.
and Yates
, W. E.
, “Physical Properties and Drift Characteristics of Viscosity-Modified Agricultural Sprays
”, Transactions, American Society of Agricultural Engineers
, Vol. 9
, No. 6
, 1966
, pp. 797-799, 802.2.
Yates
, W. E.
and Akesson
, N. B.
, “Reducing Pesticide Chemical Drift
”, in Pesticide Formulations
, Van Valkenburg
, W.
, Ed., Marcel Dekker, Inc.
, New York
, 1973
, pp. 275-341.3.
Sundaram
, A.
and Leung
, J. W.
, “Physical Properties, Droplet Spectra and Deposits of Oils Used in Pesticide Sprays
”, Journal of Environmental Science and Health
, Vol. B19
, Nos. 8
& 9
, November/December 1984, pp. 793-805.4.
Sundaram
, A.
, Sundaram
, K. M.S.
and Cadogan
, B. L.
, “Influence of Formulation Properties on Droplet Spectra and Soil Residues of Aminocarb Aerial Sprays in Conifer Forests
”, Journal of Environmental Science and Health
, Vol. B20
, No. 2
, March/April 1985, pp. 167-186.5.
Sundaram
, A.
, Sundaram
, K. M.S.
, Cadogan
, B. L.
, Nott
, R.
and Leung
, J. W.
, “An Evaluation of Physical Properties, Droplet Spectra, Ground Deposits and Soil Residues of Aerially Applied Aminocarb and Fenitrothion Emulsions in Conifer Forests in New Brunswick
”, Journal of Environmental Science and Health
, Vol. B20
, No. 6
, November/December 1985, pp. 665-688.6.
Sundaram
, A.
, Leung
, J. W.
and Curry
, R. D.
, “Influence of Adjuvants on Physicochemical Properties, Droplet Size Spectra and Deposit Patterns: Relevance in Pesticide Applications
”, Journal of Environmental Science and Health
, Vol. B22
, No. 3
, May/June 1987, pp. 319-346.7.
Randall
, A. P.
, “A Simple Device for Collecting Aerial-Spray Deposits from Calibration Trials and Spray Operations
”, Environment Canada, Forestry Service, Bimonthly Research Notes
, Vol. 36
, No. 5
, September/October 1980, p. 23.8.
Sundaram
, K. M.S.
and Szeto
, S.Y.
, “Persistence of Aminocarb in Balsam Fir Foliage, Forest Litter, and Soil After Aerial Application of Three Formulations
”, Journal of Agricultural and Food Chemistry
0021-8561, Vol. 32
, No. 5
, 1984
, pp. 1138-1141.9.
Sundaram
, K. M.S.
, “Foliar Residues of Aminocarb at Tree Canopy and Ground Levels in An Experimental Spray Operation in Conifer Forests
”, Pesticide Science
0031-613X, Vol. 16
, 1985
, pp. 463-471.10.
Sundaram
, K. M.S.
and Nott
, R.
, “Fenitrothion Residues in Selected Components of a Conifer Forest Following Aerial Application of Tank Mixes Containing Triton® X-100
”, Environmental Canada, Forestry Service, Forest Pest Management Institute Information Report
, FPM-X-65, 1984
, pp. 2-4.11.
Sundaram
, K. M.S.
and Sundaram
, A.
, “Influence of Formulation on Spray Deposit Patterns, Dislodgeable and Penetrated Residues, and Persistence Characteristics of Fenitrothion in Conifer Needles
”, Pesticide Science
0031-613X, Vol. 18
, 1987
, pp. 259-271.12.
Szeto
, S. Y.
and Sundaram
, K. M.S.
, “Simplified Method for the Analysis of Some Carbamate Insecticides in Foliage, Forest Soil and Fish Tissue by Direct Gas-Liquid-Chromatography
”, Journal of Chromatography
0021-9673, Vol. 200
, 1980
, pp. 179-184.13.
Sundaram
, K. M.S.
and Nott
, R.
, “Mexacarbate Residues in Selected Components of a Conifer Forest Following Aerial Applications of Oil-Based and Aqueous Spray Formulations
”, Journal of Environmental Science and Health
, Vol. B20
, No. 4
, July/August 1985, pp. 425-444.14.
Johnstone
, D. R.
, Statistical Description of Spray Drop Size for Controlled Drop Application
”, in Proceedings of a Symposium: Controlled Drop Application 1978
, British Crop Protection Council Monograph No. 22
, British Crop Protection Council
, Croydon, England
. 1978
, pp. 35-42.15.
Sundaram
, A.
, Retnakaran
, A.
, Raske
, A. G.
and West
, R. J.
, “Effect of Application Rate on Droplet Size Spectra and Deposit Characteristics of Dimilin® Spray Mixtures in An Aerial Spray Trial
”, in Pesticide Formulations and Application Systems: Sixth Volume
, ASTM STP 968, Beestman
G. B.
and Vander Hooven
D. I.B.
, Eds., American Society for Testing and Materials
, Philadelphia
, 1987
, pp. 104-115.16.
Sundaram
, A.
, Leung
, J. W.
, Himel
, C. M.
and Villaveces
, A.
, “The Encapsulated Drop System to Assess Formulation and Application Methods
”, in 10th International Congress of Plant Protection 1983
, Proceedings of a Conference, British Crop Protection Council
, Croydon, England
, Vol. 2
, 1983
, p. 508.17.
Sundaram
, A.
and Retnakaran
, A.
, “Influence of Formulation Properties on Droplet Size Spectra and Ground Deposits of Aerially Applied Pesticides
”, Pesticide Science
0031-613X, 1987
, (in press).18.
Amsden
, R. C.
, “Reducing the Evaporation of Sprays
”, Agricultural Aviation
, Vol. 4
, No. 3
, 1962
, pp. 88-93.19.
Matthews
, G. A.
, “Droplets
”, in Pesticide Application Methods
, Longman
, England
, 1979
, pp. 57-74.20.
Sundaram
, A.
and Leung
, J. W.
, “A Simple Method to Determine Relative Volatilities of Aqueous Formulations of Pesticides
”, Journal of Environmental Science and Health
, Vol. B21
, No. 2
, March/April 1986, pp. 165-190.21.
Cunningham
, R. T.
, Brann
, J. L.
, Jr. and Fleming
, G. A.
, “Factors affecting the Evaporation of Water from Droplets in Airblast Spraying
”, Journal of Economic Entomology
0022-0493, Vol. 55
, No. 2
, 04
1962
, pp. 192-199.22.
Seymour
, K. G.
, “Evaluation of Spray Drift Potential
”, in Pesticidal Formulations Research: Physical and Colloidal Chemical Aspects
, Gould
R. F.
, Ed., American Chemical Society Publications
, Washington, D.C.
, 1969
, pp. 135-154.23.
Sundaram
, A.
, “Optimizing Physical Properties of Diluent Oils for Maximum Target Deposition of ULV Spray Droplets Under Laboratory Conditions
,” in Pesticide Formulations and Application Systems, Sixth Volume
, ASTM STP 943, Vander Hooven
D.I. B.
and Spicer
L. D.
, Eds., American Society for Testing and Materials
, Philadelphia
, 1987
, pp. 101-122.24.
Sundaram
, A.
, “Minimizing Fine Droplets During Atomization: Importance of Physicochemical Properties of Spray Mixtures
”, Canadian Agricultural Engineering
0045-432X, Vol. 28
, No. 2
, 07
1986
, p. 190.25.
Haq
, K.
, Akesson
, N. B.
and Yates
, W. E.
, “Analysis of Droplet Spectra and Spray Recovery as a function of Atomizer and Fluid Physical Properties
”, in Pesticide Formulations and Application Systems: Third Symposium
, ASTM STP 828, American Society for Testing and Materials
, Philadelphia
, 1983
, pp. 67-82.26.
Sundaram
, A.
, “Influence of Adjuvants on Spray Atomization, Droplet Size Spectra and Deposits of Four Fenitrothion Formulations
”, in Proceedings of the 1st International Symposium on Adjuvants for Agrochemicals, 1986
, Brandon, Manitoba, Canada
, 1987
, (in press).27.
Matthews
, G. A.
, “How is it applied ?
”, in Pest Management
, Longman
, London, England
, 1984
, pp. 113-145.28.
Sundaram
, K. M.S.
, Raske
, A. G.
, Retnakaran
, A.
, Sundaram
, A.
and West
, R. J.
, “Effect of Formulation Properties on Ground and Foliar Deposits of Two Insecticides in Flushed and One Year-Old Balsam Fir Needles Following Aerial Application
”, Pesticide Science
0031-613X, (in press).29.
Sundaram
, A.
, Sundaram
, K. M.S.
, Leung
, J. W.
, Holmes
, S. B.
, and Cadogan
, B. L.
, “Influence of Physical Properties on Droplet Size Spectra and Deposit Patterns of Two Mexacarbate Formulations, Following Spray Application Under Laboratory and Field Conditions
”, Pesticide Science
0031-613X, 1987
, (in press).
This content is only available via PDF.
You do not currently have access to this chapter.
Email alerts
Related Chapters
Drop Size Spectra, Spreading, and Adhesion and Physical Properties of Eight Bacillus Thuringiensis Formulations Following Spray Application under Laboratory Conditions
Pesticide Formulations and Application Systems: International Aspects 9th Volume
Understanding Volatilities of Forestry Spray Mixtures from Their Viscosities and Viscosity-Temperature Relationships
Pesticide Formulations and Application Systems: Fifth Volume
Modeling Air Cargo Volume and Volatility in China's Airway Transportation
International Conference on Advanced Computer Theory and Engineering, 4th (ICACTE 2011)
Applicability of Environmental Scanning Systems - A Systematic List Approach to Requirements Criteria
International Conference on Electronics, Information and Communication Engineering (EICE 2012)
Related Articles
Viscous Fingering in a Hele-Shaw Cell With Finite Viscosity Ratio and Interfacial Tension
J. Fluids Eng (March,2003)
Simulation of Void Growth in Molten Solder Bumps
J. Electron. Packag (September,2003)
Evaluation of Rayleigh–Plesset Equation Based Cavitation Models for Squeeze Film Dampers
J. Tribol (April,2009)
