Calculation of Energy Consumption for Crossflow RO Desalination Processes
- 作者:Cui LiuKen RainwaterLianfa Song
- 会议时间:2011-06-01
- 关键词:Specific energy ; Reverse osmosis ; Desalination ; Crossflow ; Recovery
- 作者单位:Department of Civil and Environmental Engineering, Texas Tech University,10th and Akron, Lubbock, TX79409-1023, USA
- 母体文献:2011全国非常规水源利用技术研讨会论文集
- 会议名称:2011全国非常规水源利用技术研讨会
- 会议地点:青岛
- 主办单位:水利部
- 语种:chi
摘要
Reverse osmosis (RO) is an energy-intensive technology and consistent efforts have been made to reduce energy requirement of the technology in order to make it a more affordable means of water supply.There is an urgent need for a more accurate quantification of energy consumption in the crossflow RO process because it is the predominant configuration used in water desalination and purification. The energy required in the crossflow RO desalination processes is affected a complex set of parameters or variables,including raw water quality,membrane property,operating requirements such as permeate flux and water recovery,as well as option of energy recovery device in the concentrate stream.The crossflow RO process is fundamentally a heterogeneous system that can only be well defined with the localized variables for the salt concentration,cross flow velocity,and permeate flux along the membrane channel.A theoretical framework was developed in this study for a more accurate quantification of energy consumption in the crossflow RO process by rigorously treating the process as a heterogeneous system as it is.An inverse problem was first solved to determine the driving pressure for a RO process of given set of conditions.The resulted pressure was then used to calculate energy consumption in the RO systems either with fully energy recovery from the concentrate stream or without energy recovery at all.It was demonstrated that the energy consumptions in both RO systems were limited by mass transfer mechanism at low water recoveries but was controlled by thermodynamic restriction at high recoveries. The specific energy (energy consumption for per unit volume of permeate) was calculated for seawater and brackish RO processes for wide ranges of water recovery while the permeate flux was maintained constant at different levels. The specific energy for the RO system with concentrate energy recovery was observed to increase with both increasing permeate flux and increasing recovery. However,there was a minimum at a particular recovery in the specific energy for RO system without concentrate energy recovery and the minimum specific energy shifted to the high recovery end with increasing permeate flux.