Peer-reviewed
Comparison of vapour pressure osmometry, freezing point osmometry and direct membrane osmometry for determining the osmotic pressure of concentrated solutions
Osmometry is the analytical method of measuring osmotic pressure (π) and related colligative properties. Accurately measuring π is essential for applications that use osmosis, including drug delivery systems and water filtration methods such as forward osmosis. The three most common forms of directly or indirectly measuring π are vapour pressure osmometry (VPO), freezing point osmometry (FPO), and direct membrane osmometry (DMO). In this report, the performance of VPO, FPO, and DMO are compared for various aqueous solutions, including small molecule and polymer solutes, and potentially more difficult samples such as concentrated, carbonated, or viscous solutions. Potential problems with each of the three methods are examined. Good practices can avoid inaccuracies in DMO due to external concentration polarization and solute diffusion through the membrane. Similarly, it is important to be aware of and avoid weaknesses in VPO and FPO in order to obtain reliable results. Even with care, however, the three methods still give different values of π for concentrated aqueous solutions.
• Many water purification methods either push or pull water through a membrane • Osmotic pressure quantifies how strongly a solution pulls water through a membrane • The three most common techniques for measuring osmotic pressure give different values • Potential reasons for the different values are discussed • Best practices are recommended for these measurements
• Many water purification methods either push or pull water through a membrane • Osmotic pressure quantifies how strongly a solution pulls water through a membrane • The three most common techniques for measuring osmotic pressure give different values • Potential reasons for the different values are discussed • Best practices are recommended for these measurements
Article, 2022