Algorithms are the practical application of theoretical knowledge in computer science; they're the most theoretical part of the engineering side of computer science, so to speak. Without the study of algorithms, anyone in software would either be an amateur - because computation is useless without efficiency - or wouldn't produce much of anything since he would have to focus on solving problems all the time instead of actually writing implementations that are known to solve problems.

From a didactic point of view, algorithms are a distillation of theoretical knowledge into a precise expression. You may understand what graph traversal is and how strongly connected components should be contracted; if you try to give a succinct form to those thoughts, the best way to do it is writing down an algorithm that does what you want.

On a formal level, they help us understand the concepts we grapple with; when we claim some problem can be solved in this or that complexity, we need an algorithm to prove it. For example, if you read that sorting is in O(n log n) in the general case, you can just go ahead and believe your professor; maybe you even have an intuition why that might be true. But to actually prove it, you need an algorithm that solves sorting for which you then prove that it runs in O(n log n) in the general case. So on the theoretical level, algorithms help us classify problems according to their complexity (read: "difficulty").