Pilot-scale tests were carried out on a nanofiltration (NF)-seawater reverse osmosis (SWRO) integrated membrane system (IMS) using a kind of ultra-low pressure and high selectivity NF membrane (ESNA3, Hydranautics). Three different schemes were investigated for the NF seawater softening processes. The effect of increasing NF permeate recovery rate (RNA on the potential of scaling in the NF and RO modules was investigated in term of concentration polarization modulus (CP) of scalantions, Stiff and Davis Stability Index (S&DSI), and Supersaturation Index (SI) of CaCO3 and CaSO4. The results show that within the test range, high R-NF, large permeate flux and low specific energy consumption (Es) could be achieved simultaneously for the loosen NF membrane. The Es for ESNA3 membrane could be lower than 0.95 kWh m(-3). CPSO42- was larger than CPCO32-,3 in the NF module under the NF retentate recycling operating conditions. The SI data indicated that at RNF of higher than 65% and with antiscalant addition and pH adjustment, CaSO4 would preferentially precipitate on NF membrane surface. However, with pH adjustment, the S&DSI values on the NF and SWRO membrane surface remained negative, which indicated that CaCO3 scaling could not form in the pilot test operating range. (C) 2013 Elsevier B.V. All rights reserved.