If you really want to store primes as numbers and one of questions, stopping you is "prime numbers can not be broken down into factors", there are another thing: store it in list of modulus of any number ordered by sequence.

Small example:

```
2831781 == 2*100^3 + 83*100^2 + 17*100^1 + 81*100^0
```

List is:

```
81, 17, 83, 2
```

In real application is useful to split by modulus of 2^32 (32-bits integers), specially if prime numbers in processing application stored as byte arrays.

Storage in DB:

```
create table PRIMES
(
PRIME_ID NUMBER not null,
PART_ORDER NUMBER(20) not null,
PRIME_PART_VALUE NUMBER not null
);
alter table PRIMES
add constraint PRIMES_PK primary key (PRIME_ID, PART_ORDER) using index;
```

insert for example above (1647 is for example only):

```
insert into primes(PRIME_ID, PART_ORDER, PRIME_PART_VALUE) values (1647, 0, 81);
insert into primes(PRIME_ID, PART_ORDER, PRIME_PART_VALUE) values (1647, 1, 17);
insert into primes(PRIME_ID, PART_ORDER, PRIME_PART_VALUE) values (1647, 2, 83);
insert into primes(PRIME_ID, PART_ORDER, PRIME_PART_VALUE) values (1647, 3, 82);
```

prime_id value can be assigned from oracle sequence ...

```
create sequence seq_primes start with 1 increment by 1;
```

Get ID of next prime number to insert:

```
select seq_primes.nextval from dual;
```

select prime number content with specified id:

```
select PART_ORDER, PRIME_PART_VALUE
from primes where prime_id = 1647
order by part_order
```