Patent Application
20120031267
The present invention provides for a method to cool auxiliary compressor recycle gas in a vacuum pressure swing adsorption process (VPSA) or a pressure swing adsorption process (PSA). The method can eliminate or reduce the need for an after-cooler at the compressor discharge.
Cyclic adsorption processes are frequently used to separate the components of a gas mixture. Typically, cyclic adsorption processes produce the desired product during a certain portion of the total cycle. In order to maintain continuous flow these processes require a product receiver often called a buffer tank. The buffer tank usually fluctuates in pressure depending upon the flow of gas and its size. In many cases the gas pressure coming out of the buffer tank is not sufficient to meet the requirement of the end user. In these cases an auxiliary product compressor is provided to boost the pressure.
The compression of a gas increases its temperature. The simplest relationship between temperature and pressure is linear. The auxiliary product compression in cyclic adsorption processes also requires a recycle stream in order to maintain good control over discharge and suction pressure. The recycle gas stream must be cooled even if the hot product gas is acceptable to the end user. The recycle gas if sent back as hot gas would slowly cause the heat to accumulate in the system and cause entire system to operate hot and fail. Therefore, current industrial practice widely used is to cool the entire gas using an after cooler and recycle a portion of it back to the suction of the compressor.
The present invention provides a method to divert the recycle gas back to the upstream buffer tank in cyclic adsorption processes to allow it to mix with the incoming product gas. The resulting mixture gets cooled using natural convection on the buffer tank walls.
The key advantage of this invention over the prior art is that there is no separate cooler required to cool the recycle gas from the compressor discharge.
The present invention provides for a method of connecting the hot recycle gas from the compressor suction discharge of a cyclic adsorption process to the incoming product line, upstream of the buffer tank. This allows for intermixing of cooler product gas and the hotter recycle gas. The resulting mixture further loses heat through natural convection on the wall of the buffer tank. At the compressor suction the resulting steady state temperature is close to the incoming cooler product gas.
The present invention provides for a method to cool the recycle gas using the upstream buffer tank in cyclic adsorption processes. See
The product gas (9) from the cyclic adsorption process enters the buffer tank (6) through line 1. The recycle gas (11) joins the product gas through line 5. Together the mixture enters the buffer tank (6). As the mixed gas comes into contact with the buffer tank (6) walls it exchanges heat and in the process gets cooled. The outer walls of the buffer tank (6) exchange heat with the ambient using natural convection. The present inventors have determined that the heat exchange through natural convection from the walls of the buffer tank is substantial and can be used cool a hot gas stream from the compressor discharge. The cooled gas from the Buffer tank (6) passes on the compressor (7) through line 2. A slip stream of recycle gas is taken out from compressor discharge (line 3) and sent back to upstream of the buffer tank (6) through control valve (8). The balance of the hot compressor gas (10) is passed on to the consumer.
A variation of the present invention as shown in
Another variation of the present invention as shown in
