INFLUENCE OF NITRATES, PHOSPHATE, SULPHATE AND SALTS OF Ca, Mg AND K, ON HYDROGEL HYDRATATION CAPACITY

Orlando Sílvio Caires Neves,Claudimar Sidnei Fior,Luciana Pinto Paim,Igor Glaeser Da Rocha,Eduarda Demari Avrella

doi:10.1590/1806-908820200000008

Abstract

ABSTRACT Hydrogel hydration capacity in solution was evaluated at different levels of electrical conductivity (EC) using nitrate, phosphates, sulfates, and salts of calcium, potassium and magnesium. Four sequential experiments were performed using potassium polyacrylate copolymer. The first experiment aimed to determine the lowest hydrogel dose, at which occur maximum deionized water absorption. The test was assembled in a completely randomized design with six hydrogel doses (1, 2, 4, 6, 8 and 10 g L-1) and four replicates. The second experiment consisted of testing the sucrose P.A. doses (0, 1, 2, 4 and 6 %) in order to evaluate the change in osmotic potential of the solution on hydrogel hydration. The third and fourth studies were carried out in a complete randomized design, using a 6 x 3 x 2 factorial scheme with four replicates. For the third experiment, the factors were six levels of EC (0; 0.25; 0.50; 1.00; 1.50 and 2.00 mS cm1) increased by the addition of three anions (NO3-; PO43- and SO42-) along with counter-ions Ca++ and K+. For the fourth experiment, the same six levels of EC were achieved by adding the three cations (Ca++, Mg++ and K+), along with the counter-ions Cl- and SO42-. Hydration capacity of the hydrogel decreases when the ionic concentration of the solution increases and the reduction of the osmotic potential through the addition of sucrose does not interfere in its swelling capability. Anions and cations in the solution negatively influence the process of the hydrogel hydration. The most pronounced effect is for those with higher valence.

Highlights

Potassium polyacrylate copolymer is a molecule with great capacity for water absorption due to its particular conformation provided by the presence of potassium salts
Such behavior can be explained by the chemical composition of the copolymer used in the experiment, as, some of the potassium of the molecule composition becomes ionic during the hydration process
The potential for release of chemical elements through the hydrogel over the hydration process can be inferred based on the increased electrical conductivity of the leachate combined to its chemical composition (Figure 1 A)

Summary

Introduction

Potassium polyacrylate copolymer is a molecule with great capacity for water absorption due to its particular conformation provided by the presence of potassium salts. The carboxylic groups of the polymer dissociate into negatively charged carboxylic ions. This process causes the enrichment of molecular chains with charged ionic groups, with a tendency to repel each other. The volume of the polymer cavity is incremented, greater water storage. The hydrogel has the potential to absorb 150 to 400 times its dry mass, so it can be used to increase substrate water storage capacity, minimizing the issues associated with irregular and deficient water availability (Marques et al, 2013)

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