The purpose of NEventStore is to represent a series of events as a stream. Furthermore, it provides hooks whereby any events committed to the stream can be dispatched to interested parties.
Guided by a number of strategic design decisions based upon the needs of applications using event sourcing, NEventStore is able to liberate applications from the stringent requirements often imposed by infrastructure components. Specifically, most CQRS-style applications read from a message queue and perform some processing. When processing is complete, the application then commits the work to storage and publishes the completed work. In almost all cases, this requires a two-phase commit managed by a distributed transaction coordinator (MSDTC in .NET) along with various security settings and firewall ports opened and available whereby such components can communicate, not to mention a ubiquitous requirement for Microsoft Windows on all machines in .NET environments.
When using two-phase commit in .NET, there are very few database drivers that support this scenario and even fewer message queues that support it. In essence, if you want to implement a typical CQRS-style application, you're stuck with MSMQ and SQL Server using MSDTC. Granted, there are other choices, but the constraints imposed by a two-phase commit are burdensome. This also creates additional issues when utilizing shared hosting or running on Mono as support in frameworks and drivers is either poor, buggy, or unavailable.
NEventStore liberates application developers from this level of infrastructure awareness and concern by committing all work within a separate isolated atomic unit--all without using transactions. Furthermore, it does this outside of any ambient transaction from a message queue or other persistence mechanisms. In other words, application developers are free to use virtually any messaging queuing infrastructure, message bus (if at all), and storage engine. Each will perform its own specific task in an isolated manner with full transactional integrity all without enlisting any resources (other than a message queue) in some form of transaction.
Interestingly enough, even without the presence of distributed transactions across the various resources involved, such as a message queue and persistent storage, NEventStore is able to ensure a fully transactional experience. This is achieved by breaking apart a distributed transaction into smaller pieces and performing each one individually. This is one of the primary goals and motivations in the underlying model found in the EventStore. Thus each message delivered by the queuing infrastructure is made to be idempotent, even though the message may be delivered multiple times, as per message queue "at-least-once" guarantees. Following this, NEventStore is able to ensure that all events committed are always dispatched to the relevant messaging infrastructure.