TCP offers more than just error checking so there's a lot to implement if you want to replace it. Here are some things that come to mind in no particular order:
1. Standardization
You've written your own transport protocol. Congrats! Have fun using it with yourself since yours is the only implementation. TCP on the other hand, exists and is well tested on any platform. It is supported by firewalls, proxies, routers, and everything else your traffic might run into in a network.
2. Congestion Control
This is what you thought of when you said "Flow Control" (see next bullet). Congestion control throttles the TCP stream in response to network congestion. But you're a selfish bastard (and that's fine!) so you're asking why should you care. Well, the bottleneck of most of your network usage is the link between you and your provider. Your provider is usually well provisioned and has network engineers at his disposal. These guys know how to protect the network from over-usage and how to avoid hotspots. So TCP's congestion control really protects you and your applications most of all, making sure that a single application can't choke the whole connection. It helps to make sure that you don't do anything foolish like send 1Gbps worth of traffic over your 50Mbps connection just because the link from your PC to the router can support 1Gbps.
3. Flow Control
Flow control is NOT congestion control. In a nutshell, flow control is telling the other side to shut up when you're no longer able to process the incoming information. Think about a mobile phone trying to load a heavy web page from a nearby HTTP server. The server can dump the entire page on the network in a fraction of the time it takes the phone to process it. In such cases the bottleneck is not the network but one of the devices. Your TCP alternative would have to solve this issue too.
4. In-order delivery
In addition to error detection, TCP guarantees that the data will arrive in the correct order. This is not the same as error detection, it's an additional feature.
5. Security
The TCP three way handshake and the way in which modern operating systems generate initial sequence numbers practically guarantees to both parties that the IP address of the other host is real and not spoofed. This wasn't always the case. Back when initial sequence numbers were easy to predict, these attacks existed.
Additionally, implementing all of TCP's features is hard, and complexity breeds bugs. Many TCP implementations have been known to contain various bugs such as buffer overflows some of which had severe security implications. Hopefully, there were all found and fixed by now. New protocols and new implementations always run the risk of introducing new security vulnerabilities.
6. Performance
Network cards and modern operating systems take the load of managing TCP off your application, and they do it WELL by now. You want to use your own sequence numbers and error detection? You'll have to implement them yourself in user space (and suffer the performance penalties, especially if your application is written in something like Java) or be prepared to write kernel and driver patches.
Additionally, the existing TCP implementations themselves have reviewed and optimized by entire generations of engineers by now. It would be very challenging to create something as polished by yourself.