https://kvalifood.com/tags/oils/ Recent content in Oils on Kvalifood Hugo en-us Thu, 09 Apr 2026 00:00:00 +0000 https://kvalifood.com/wiki/lipid-chemistry/ Thu, 09 Apr 2026 00:00:00 +0100 https://kvalifood.com/wiki/lipid-chemistry/ <h1 id="lipid-chemistry">Lipid Chemistry</h1> <img src="https://kvalifood.com/wiki/lipid-chemistry/lipid-chemistry_hu_5a7e4a7bcd29299.webp" alt="" loading="lazy"> <p>Lipids (from Greek for &ldquo;fat&rdquo;) are a large chemical family — fats, oils, phospholipids, pigments (carotenoids, chlorophyll), vitamin E, cholesterol, waxes — all consisting mainly of long carbon chains with projecting hydrogen atoms. Their defining property is hydrophobia: carbon-hydrogen bonds are nonpolar (atoms pull with equal force on electrons), so lipids cannot form hydrogen bonds with <a href="https://kvalifood.com/wiki/water-science/">water</a>. When mixed, polar water molecules bond with each other and nonpolar lipids segregate, minimizing contact. This single property — the oil-water divide — explains <a href="https://kvalifood.com/wiki/emulsions/">emulsions</a>, fat rendering, oil-based extraction of aromas, and why fats float.</p> https://kvalifood.com/wiki/seed-biology/ Thu, 09 Apr 2026 00:00:00 +0100 https://kvalifood.com/wiki/seed-biology/ <h1 id="seed-biology">Seed Biology</h1> <img src="https://kvalifood.com/wiki/seed-biology/seed-biology_hu_3865b73a71a3432a.webp" alt="" loading="lazy"> <p>Seeds are the driest, most shelf-stable foods in the kitchen — concentrated parcels of energy locked behind a water-resistant coat, requiring both moisture and heat to become edible. The same three-part structure (protective coat, embryo, storage tissue) appears across all seeds, and understanding how starch, protein, and oil behave within that structure explains nearly every cooking property of grains, legumes, and nuts.</p> <h2 id="seed-structure">Seed structure</h2> <p>Every seed consists of three functional components:</p>