First I implore you to look into MariaDB, a binary drop in replacement for MySQL. The MariaDB project is lead by the original developer of MySQL. More information can be found at MariaDB.org
In order to better understand the best way to represent an array of data within an SQL table we must understand what arrays and tables are and why they are useful:
What is an array?
What purpose does an array serve?
What is a table in a relational database management system?
What purpose does a table (in a RDBMS) serve?
(1); An array is an immutable series of related objects or data, typically (but not always) of the same type, stored contiguously in memory and represented by an indexed variable in program code.
(2); An array provides a simple and effective interface to store sets of related data so that it may be easily accessed and operated on.
(3); From Wikipedia:
In relational databases and flat file databases, a table is a set of data elements (values) that is organized using a model of vertical columns (which are identified by their name) and horizontal rows, the cell being the unit where a row and column intersect. A table has a specified number of columns, but can have any number of rows. Each row is identified by the values appearing in a particular column subset which has been identified as a unique key index.
(4); A table is used in SQL for the same reason that an array might be used in programming - tables store related data within the database in a tabular format that allows the records of data to be easily accessed and analyzed. The main difference is that MySQL tables are typically not stored in memory and are instead stored on the local filesystem. (The exception being Blackhole tables and Memory tables which are not stored at all or stored in memory, respectively.) Another key difference is that RDBMSs like MySQL allow for data of any type to be stored in the table and they also offer stronger indexing.
So, basically, arrays and tables are very much alike in their purpose. We can attempt to store each member of the array in its own database record. Since RDBMSs are good at storing data and programming languages are good at manipulating and operating on data the main requirement of our database table is that it must be easy to store and retrieve the data it contains.
In the event that we have a multidimensional array that must be stored in a database it would be inefficient to store each array in its own table. One possible solution is to store the entire multidimensional array in one table while storing each component array in its own row(record). Using type char or varchar, or any textual data type, we can then access each record and parse it thus removing the delimiter and storing each piece of data in an array in program memory (so that it may be operated on later during program execution).
One downside to storing a multidimensional array in a single database table using this method is that we fail to take advantage of the strong type systems provided by our RDBMS by storing the array as plain text.
A more complicated way of storing multidimensional arrays in an RDBMS would be to store each array in its own table (as previously stated). If the database engine provides foreign keys we can insure the integrity of our data. We can access the data from the programming language by using more complicated queries consisting of joins or, less frequently, unions depending on the data we are trying to access. This method might make retrieving the data more complex however it takes advantage of the powerful storage provided by RDBMSs. Taking advantage of our RDBMSs' features provide richer and more powerful means to analyze the data being stored in the tables and also make it less complicated to normalize the data. (Since multiple sets of data can retain their type and are no longer being stored in a single record).