As you have stated that you are running the linux kernel as compiled in SMP mode on Uni-processor system so it's clear that you'll not get any benefit in terms of speed & memory.
As the linux-kernel uses extensive locking for synchronization. But it Uni-Processor mode there may be no need of locking theoretically but there are many cases where its necessary so try to use Locking where its needed but not as much as in SMP.
but you should know it well that Spinlocks are implemented by set of macros, some prevent concurrency with IRQ handlers while the
other ones not.Spinlocks are suitable to protect small pieces of code which are intended to run
for a very short time.
As of your second question, you are trying to remove spinlocks by disabling interrupts for Uni-Processor mode but Spinlock macros are in non-preemptible UP(Uni-Processor) kernels evaluated to empty macros(or some of them to macros just disabling/enabling interrupts). UP kernels with
preemption enabled use spinlocks to disable preemption. For most purposes, pre-emption can be tought of as SMP equivalent. so in UP kernels if you use Spinlocks then they will be just empty macro & i think it will be better to use it.
there are basically four technique for synchronization as..1->Nonpreemptability,2->Atomic Operations,3->Interrupt Disabling,4->Locks.
but as you are saying to disable interrupt for synchronization then remember Because of its simplicity, interrupt disabling is used by kernel functions for implementing a critical region.
This technique does not always prevent kernel control path interleaving.
Critical section should be short because any communication between CPU and I/O is blocked while a kernel control path is running in this section.
so if you need synchronization in Uni-Processor then use semaphore.