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This paper aims to review the chemical composition and industrial benefits of oil extracted from dikanut kernels.

Several literatures on chemical composition of dikanut kernels, methods of oil extraction from dikanut kernels and chemical composition of oil extracted from dikanut kernels were critically reviewed.

The review showed that proximate composition of dikanut kernels ranged from 2.10 to 11.90 per cent, 7.70 to 9.24 per cent, 51.32 to 70.80 per cent, 0.86 to 10.23 per cent, 2.26 to 6.80 per cent and 10.72 to 26.02 per cent for moisture, crude protein, crude fat, crude fibre, ash and carbohydrate contents, respectively. The methods of oil extraction from dikanut kernels include soxhlet extraction method, novel extraction method, enzymatic extraction method and pressing method. The quality attributes of dikanut kernel oil ranged from 1.59 to 4.70 g/100g, 0.50 to 2.67 meq/Kg, 4.30 to 13.40 g/100g, 187.90 to 256.50 mg KOH/g and 3.18 to 12.94 mg KOH/g for free fatty acid, peroxide value, iodine value, saponification value and acid value, respectively. Also, the percentage compositions of oleic, myristic, stearic, linolenic, palmitic, lauric, saturated fatty acids, monosaturated fatty acids and polyunsaturated fatty acids ranging from 0.00 to 6.90, 20.50 to 61.68, 0.80 to 11.40, 0.27 to 6.40, 5.06 to 10.30, 27.63 to 40.70, 97.45 to 98.73, 1.82 to 2.12 and 0.27 to 0.49 respectively. The results showed that dikanut kernels has appreciable amount of protein, carbohydrate and high level of fat content while oil extracted from dikanut kernels have high saponification value, high myristic acid and high lauric acid.

There are scanty information/published works on industrial products made from oil extracted from dikanut kernels.

The review helps in identifying different methods of extraction of oil from dikanut kernels apart from popular soxhlet extraction method (uses of organic solvent). Also, it helps to identify the domestic and industrial benefits of oil extracted from dikanut kernels.

The review showed that oil extracted from dikanut kernels could be useful as food additive, flavour ingredient, coating fresh citrus fruits and in the manufacture of margarine, oil creams, cooking oil, defoaming agent, cosmetics and pharmaceutical products.

This study aims to investigate the physicochemical and sensory characteristics of fried peanut cracker snacks coated with wheat (80%) and cassava (20%) composite flours.

The peanuts were sorted, boiled, drained, roasted, coated and fried at temperature of 150–180°C for 154.6–240 s. The fried peanut cracker-coated (FPCC) snacks produced were analyzed for proximate composition (moisture, crude fat, crude protein, crude fibre, total ash and carbohydrate contents), rancidity indices (peroxide value, free fatty acid and iodine value), physical properties, colour (lightness, redness and yellowness), texture (hardness, fracturability, adhesiveness and cohesiveness) and sensory qualities (taste, crispiness, colour, odour and overall acceptability).

There were significant differences in moisture (p = 0.000), crude fat (p = 0.001), crude protein (p = 0.000), crude fibre (p = 0.001), total ash (p = 0.00) and carbohydrate (p = 0.001). The range of values for moisture content, crude fat, crude protein, crude fibre, total ash and carbohydrate contents were 2.6%–4.9%, 27.1%–34.7%, 21.0%–26.3%, 3.1%–4.1%, 2.1%–2.5% and 33.9%–36.4%, respectively, while peroxide, free fatty acid and iodine values ranged from 1.2 to 2.0 mEq/kg, 32.8–47.0 mg KOH/g and 1.2–2.0 gI₂/100 g, respectively. The physical properties of the FPCCs showed decrease as the frying temperature and time increased. The values for lightness (L*), redness (a*) and yellowness (b*) ranged from 26.5 to 52.2, 11.4 to 22.0 and 37.0 to 42.5, while the texture attributes such as hardness (p = 0.001), fracturability (p = 0.023), adhesiveness (p = 0.001) and cohesiveness (p = 0.011) were significantly different and it ranged from 28.7 to 53.4 N, 28.6 to 48.3 N, 1.0 to 2.4 N/s and 0.0–0.1, respectively. The sensory score for wheat–cassava composite flours used for coating the snacks decreased as the frying temperature and time increased. The study shows that 20% of cassava flour incorporated into the formulation of coated snacks does not affect its overall acceptability.

There are scanty information/published works on physicochemical and sensory characteristics of fried peanut cracker coated with wheat–cassava composite flour.

This research work helps in producing fried peanut cracker coated with composite wheat–cassava flours.

The study shows that 20% of cassava flour incorporated into the formulation of coated snacks does not affect its overall acceptability.

The purpose of this paper is to evaluate some common bread improvers (normally used for 100 per cent wheat bread) for their effect on the quality attributes of wheat-cassava (90:10) composite bread.

Four commonly used bread improvers (ASA, ABT, EDC and PTB) in Nigeria were evaluated for their effect on the baking potential of wheat-cassava (90:10) composite flour. Bread samples were baked from wheat-cassava (90:10) composite flour, with and without bread improvers. Changes in dough height during fermentation, oven spring, yield and specific volume of bread samples were determined. Bread samples were also evaluated for their sensory and staling characteristics.

Results showed that dough height during fermentation did not change significantly (p<0.05) and crumb colour, firmness, taste and aroma were unaffected by addition of bread improvers; but oven spring, yield, specific volume, bread shape, crust colour, texture and overall acceptability of bread were significantly different (p>0.05). All the bread improvers except ABT extended the shelf life of wheat-cassava (90:10) composite bread for a period of 24-48 hours.

Bread improvers normally used for 100 per cent wheat bread could be used effectively for wheat-cassava (90:10) composite bread without an adverse effect on quality of bread.

Bread makers need little or no additional training to handle wheat-cassava (90:10) composite flour for bread making process hence, Nigeria can sustain her policy of using wheat-cassava composite flour for baking without any serious technical problem.