Preparation and firefighting performance study of a new AFFF firefighting material based on nano silicon dioxide

Lou, Zhengkai

doi:10.1590/1517-7076-RMAT-2025-0434

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Articles • Matéria (Rio J.) 30 • 2025 • https://doi.org/10.1590/1517-7076-RMAT-2025-0434 linkcopy

Preparation and firefighting performance study of a new AFFF firefighting material based on nano silicon dioxide

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

To improve the firefighting performance of aqueous film forming foam (AFFF), a new AFFF formulation containing nano silicon (SiO₂) particles was developed in this study. Nano-SiO₂ (average particle size: 105 nm) was synthesized and incorporated into the standard AFFF formula at a concentration of 5%. The physicochemical properties of modified AFFF were systematically analyzed, and then the new firefighting material was tested in a simulated fire environment to analyse its firefighting performance. The firefighting time of new firefighting materials for solid combustibles, liquid substances, and chemical fires was significantly improved compared to the unoptimized materials, ranging from 0.9 to 1.5 minutes, 0.7 to 1.3 minutes, and 1.1 to 2.3 minutes, respectively. After 7 days of exposure, the quality loss of SiO₂-AFFF on steel (ASTM A36) was 0.9%, while the quality loss of the control AFFF was 9.8%, indicating a significant reduction in corrosiveness. Acute toxicity testing showed a significant reduction in toxicity compared to the control group. These results indicate that the addition of nano-SiO₂ significantly raises the fire extinguishing performance of AFFF and reduces its corrosiveness, providing a potential pathway for the development of more effective and safer AFFF firefighting materials.

Keywords:
Nano silicon; AFF firefighting agent; Firefighting performance; Firefighting equipment

REAGENT	PURITY	SUPPLIER	FUNCTION
Water glass (0.15 m/V)	95%	Xi'an Huachang Water Glass Co., Ltd	Silicon source
Sulfuric acid (0.34 mL/L)	95%	Nanjing Shengqinghe Chemical Co., Ltd	pH adjustment
Ammonia water (0.05 mL/L)	25%~28%	Nanjing Shengqinghe Chemical Co., Ltd	Catalyst
NaOH (3 mL/L)	96%	Shandong Blue Star Chemical Co., Ltd	pH adjustment
Tetraethyl orthosilicate (1 mL/L)	99%	Shanghai Aladdin Biochemical Technology Co., Ltd	Precursor
Ethyl orthosilicate (1 mL/L)	99%	Wuhan Xinyang Ruihe Chemical Technology Co., Ltd	Precursor
Ethyl acetate (1 mL/L)	98%	Kunshan Southeast Chemical Materials Co., Ltd	Precipitant
Cetyltrimethylammonium bromide (0.65 mL/L)	99%	Shanghai Kaiyin Chemical Co., Ltd	Surface modifier, prevents agglomeration

RAW MATERIAL	PURITY	SOURCE	DEVICE	MODEL	SOURCE
FS-50 surfactant (3 m/V)	99%	Guangzhou Jinshengji Chemical Co., Ltd	Mixer	RDROC-1S laboratory mixer of the same model	Changzhou Quanhe Instrument Manufacturing Co., Ltd
SDS surfactant (5 m/V)	92%	Guangzhou Jinshengji Chemical Co., Ltd	Filter	Needle filter	Changzhou Quanhe Instrument Manufacturing Co., Ltd
Fluorocarbon surfactant (6 m/V)	90%	Produced by Hubei Siweitu New Material Technology Co., Ltd	Reaction kettle	Jacketed Pilot Plant Reactors	Changzhou Quanhe Instrument Manufacturing Co., Ltd
Polyacrylamide (1 m/V)	90%	Anhui Tianrun Chemical Industry Co., Ltd	Storage tank	PTFE anti-corrosion storage tank	Changzhou Quanhe Instrument Manufacturing Co., Ltd

FIRE TYPE	AFFF (ml/g)	ALUMINUM SULFATE FEA (ml/g)	FLUOROPROTEIN FEA (ml/g)	SiO₂-AFFF (ml/g)	P (VS.AFFF)
Solid combustibles (0.5 m³ firewood pile fire)	380 ± 30	420 ± 32	450 ± 40	610 ± 45	p < 0.01
Liquid substance (1 m² heptane pan fire)	410 ± 35	480 ± 10	500 ± 45	720 ± 50	p < 0.01
Gas fire (0.5 m² Hydrogen fire)	310 ± 20	350 ± 20	380 ± 35	520 ± 40	p < 0.01
Chemical fire (0.5 m² Methanol fire)	360 ± 10	400 ± 10	420 ± 40	580 ± 45	p < 0.01

FIRE TYPE	AFFF (min)	ALUMINUM SULFATE FEA (min)	FLUOROPROTEIN FEA (min)	SiO₂-AFFF (min)
Solid combustibles (0.5 m³ firewood pile fire)	2.1~3.3	1.8~3.1	1.5~2.9	0.9~1.5
Liquid substance (1 m² heptane pan fire)	1.9~2.4	1.6~2.8	1.8~3.2	0.7~1.3
Gas fire (0.5 m² Hydrogen fire)	5.1~8.1	4.8~7.3	4.5~6.9	3.2~4.3
Chemical fire (0.5 m² Methanol fire)	2.3~3.7	2.8~3.2	2.3~4.1	1.1~2.3

FIRE SUPPRESSANT	ACUTE TOXICITY EC50 (mg/l)	CHRONIC TOXICITY NOEC (mg/l)	ENVIRONMENTAL TOXICITY EC50 (mg/l)	PROBABILITY OF GENE MUTATION (%)
SiO₂-AFFF	6000.68	7343.68	8764.32	0.008
Fluoroprotein FEA	4898.67	6567.93	7752.41	0.012
Aluminum sulfate FEA	3978.88	5623.65	6732.98	0.019
AFFF	3956.55	4567.71	5798.65	0.045

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