People keep coming back to this model because they think it's "flexible". Well, it is I suppose, but that flexibility comes at a huge price: Every update and every query is slow and complex. Quassnoi mentions that if the attributes are sparse, i.e. most entity instances have only a small percentage of the possible attributes, this can save space. This is true, but the flip side is that if it is not sparse, this takes hugely more space, because now you have to store the attribute name or code for every attribute in addition to the value, plus you need to repeat some sort of key to identify the logical entity instance for every attribute.
The only time I can think of when this would be a good idea is if the list of attributes needs to be updatable on the fly, that is, a user needs to be able to decide to create a new attribute whenever he likes. But then what will the system do with this attribute? If you just want the user to be able to type it in and then later retrieve what he typed, easy enough. But will it affect processing in any way? Like, if the user decides to add a "clearance sale code", how will your program know how this affects the sale price? It could be done of course: You could have additional screens where the user enters data that somehow describes how each field affects pricing or re-ordering or whatever. But that would add yet more layers of complexity.
So my short answer is: Unless you have a very specialized requirement, don't do this. If you are trying to build a database describing items that you sell, with things like description and price and and quantity on hand, then create one table with fields like description and price and quantity on hand. Life is hard enough without going out of your way to make it harder.