№7|2026
WATER TREATMENT
UDC 628.165:661.718.1
DOI 10.35776/VST.2026.07.06
Approaches to the development and evaluation
of low-phosphorus composite scale inhibitors for reverse osmosis systems
Summary
The aspects of the selection and optimization of scale inhibitors for reverse osmosis and nanofiltration systems are considered. The relevance stems from the need to reduce phosphorus loading on natural water bodies while maintaining the high efficiency of inhibiting calcium carbonate and iron (III) hydroxide scale formation; these two being the most common types of deposits in the concentrate tray of spiral-wound membrane elements. The results of comparative tests of seven autoinhibitors based on phosphonates and polymers, as well as fourteen composite formulas based on these inhibitors are presented. The experiments were conducted under static conditions using model solutions simulating the composition of reverse osmosis concentrate in terms of carbonate hardness and iron ion concentration. Phosphorus-containing inhibitors were found to be the most effective against calcium carbonate. However, composite formulas with a high AA/MA copolymer concentration and small amounts of NTP additives (formulas No. 9 and No. 10) demonstrated significant synergism providing for reducing the phosphonate dosage by 4–7 times without any loss of effectiveness. With respect to iron hydroxide, polymeric inhibitors were slightly inferior to phosphonates, while composition No. 1 (80% AA/MA, 20% AA/AMPS) was the most effective among phosphonate-free formulas and comparable to the formula containing 30% NTP. Possible partial or complete replacing of phosphonates with polymer components while maintaining the required performance characteristics was demonstrated, which is consistent with the principles of developing environmentally friendly («green») antiscalants.
Key words
water treatment , reverse osmosis , nanofiltration , antiscalant , scale inhibitor , spiral-wound membrane element , inhibition efficiency
For citation: Prirez D. S., Gromov S. L. Approaches to the development and evaluation of low-phosphorus composite scale inhibitors for reverse osmosis systems. Vodosnabzhenie i Sanitarnaia Tekhnika, 2026, no. 7, pp. 52–60. DOI: 10.35776/VST.2026.07.06. (In Russian).
The further text is accessible on a paid subscription.
For authorisation enter the login/password.
Or subscribe
Список цитируемой литературы/REFERENCES
- Kucera J. Reverse osmosis: Industrial applications and processes. Wiley, 2011, 472 р.
- Попов К. И., Ковалева Н. Е., Рудакова Г. Я., Комбарова С. П., Ларченко В. Е. Современное состояние разработок биоразлагаемых ингибиторов солеотложений для различных систем водопользования (обзор) // Теплоэнергетика. 2016. № 2. С. 46–53.
Popov K. I., Kovaleva N. E., Rudakova G. Ia., Kombarova S. P., Larchenko V. E. [Current state of developing biodegradable scale inhibitors for various water management systems (review)]. Teploenergetika, 2016, no. 2, pp. 46–53. (In Russian). - Громов С. Л. Осадкообразование в рулонных обратноосмотических и нанофильтрационных элементах и способы его предотвращения // Теплоэнергетика. 2014. № 6. С. 49–58.
Gromov S. L. [Deposit formation in spiral-wound osmosis and nanofiltration elements and methods for its prevention]. Teploenergetika, 2014, no. 6, pp. 49–58. (In Russian). - Popov K., Vainer Y., Silaev G., et al. Crystals, 2024, v. 14, no. 7, pp. 650.
- Amjad Z., Koutsoukos P. G. Evaluation of maleic acid based polymers as scale inhibitors and dispersants for industrial water applications. Desalination, 2014, v. 335, pp. 55–63.
- Zhang B., Li J., Lv X., Cui Y., Xu Y. Synthesis of polyaspartic acid/2-amino-2-methyl-1,3-propanediol graft copolymer and evaluation of its scale inhibition and corrosion inhibition performance. Desalination Water Treatment, 2014, v. 54, pp. 1998–2004.
- Oshchepkov M. et al. Synthesis and visualization of a novel fluorescent-tagged polymeric antiscalant during gypsum crystallization in combination with bisphosphonate fluorophore. Crystals, 2020, v. 10, p. 309.
- Первов А. Г. Современные высокоэффективные технологии очистки питьевой и технической воды с применением мембран: обратный осмос, нанофильтрация, ультрафильтрация. – М.: Издательство АСВ, 2009. 231 c.
Pervov A. G. Sovremennye vysokoeffekrivnye tekhnologii ochistki pit’evoi i tekhnicheskoi vody s primeneniem membran: obratnyi osmos, nanofil’tratsiia, ul’trafil’tratsiia [Advanced highly efficient technologies for purifying drinking and industrial water using membranes: reverse osmosis, nanofiltration, ultrafiltration. Moscow, ASV Publ., 2009, 231 p.]. - Xia C. et al. Synthesis, characterization, and performance evaluation of AA/AMPS copolymers with different molecular weights and explanation of the inhibition mechanism of calcium carbonate and calcium sulfate. Colloids and Surfaces A. Physicochemical and Engineering Aspects, 2024, v. 698, pp. 134558.





