Neither one is a very good option.
Option 1 is a poor idea because it makes looking a user up by email a complex, inefficient task. You are effectively required to perform a full text search on the email field in the user record to find one email.
Option 2 is really a WORSE idea, IMO, because it makes any surrounding code a huge pain to write. Suppose, again, that you need to look up all users who have a value X. You now need to enumerate 30 columns and check each one to see if that value exists. Painful!
Storing data in this manner -- 1-or-more of some element of data -- is very common in database design, and as Adam has previously mentioned, is best solved in MOST cases by using a normalized data structure.
A correct table structure, written in MySQL since this was tagged as such, might look like:
CREATE TABLE user (
user_id int auto_increment,
PRIMARY KEY (user_id)
CREATE TABLE user_email (
email char(60) not null default '',
FOREIGN KEY (user_id) REFERENCES user (user_id) ON DELETE CASCADE
FOREIGN KEY statement is optional -- the design will work without it, however, that line causes the database to force the relationship. For example, if you attempt to insert a record into
user_email with a
user_id of 10, there MUST be a corresponding
user record with a
user_id of 10, or the query will fail. The
ON DELETE CASCADE tells the database that if you delete a record from the
user table, all
user_email records associated with it will also be deleted (you may or may not want this behavior).
This design of course also means that you need to perform a join when you retrieve a user record. A query like this:
SELECT user.user_id, user_email.email FROM user LEFT JOIN user_email ON user.user_id = user_email.user_id WHERE <your where clause>;
Will return one row for EACH user_email address stored in the system. If you have 5 users and each user has 5 email addresses, the above query will return 25 rows.
Depending on your application, you may want to get one row per user but still have access to all the emails. In that case you might try an aggregate function like
GROUP_CONCAT which will return a single row per user, with a comma-delimited list of emails belonging to that user:
SELECT user.user_id, GROUP_CONCAT(user_email.email) AS user_emails FROM user LEFT JOIN user_email ON user.user_id = user_email.user_id WHERE <your where clause> GROUP BY user.user_id;
Again, depending on your application, you may want to add an index to the email column.
Finally, there ARE some situations where you do not want a normalized database design, and a single-column design with delimited text might be more appropriate, although those situations are few and far between. For most normal applications, this type of normalized design is the way to go and will help it perform and scale better.