Floating wetlands for low-cost wastewater treatment

Published in Sustainability
Floating wetlands for low-cost wastewater treatment
Like

Share this post

Choose a social network to share with, or copy the URL to share elsewhere

This is a representation of how your post may appear on social media. The actual post will vary between social networks

Ensuring the availability and sustainable management of water and sanitation (UN SDG6) resources as a part of enhanced sewage treatment infrastructures requires capital investment, which may pose a substantial economic burden on low and lower middle-income countries. Furthermore, rapid population growth in many urban habitations makes the task of developing treatment infrastructure even more demanding. A case-in-point is the city of Faisalabad, the industrial hub of Pakistan, that has a current population of more than 3.2 million people (latest census, 2017); in combination with various industries, the city generates approximately 2 million m3 of wastewater every day. Wastewater generated in the north-western sector of Faisalabad, which spans approximately half of the city area, drains into stabilization ponds built by the Water and Sanitation Agency (WASA) in 1998 with financial aid from Japan. Since then, the city’s population has grown by approximately 1 million inhabitants, along with more industrial units being setup. 

Overloading of WASA’s stabilization ponds has resulted in a decline in their treatment efficiencies, leading to highly viscous and foul-smelling contents. Due to lack of other water sources in the region, over 70% of surrounding agricultural land is irrigated with the wastewater supplied by these ponds. To mitigate these insalubrious conditions, the WASA strived to develop a low-cost yet effective ecotechnology to improve their pond system. In consultation with members of the National Institute for Biotechnology and Genetic Engineering (NIBGE), Faisalabad, retrofitting the ponds with floating treatment wetlands (FTWs) was deemed to be the best solution. In April 2014, WASA and NIBGE signed an agreement for the construction, operation, and monitoring of full-scale FTWs in the ponds that were expected to cover an overall area of ~1,858 m2 on the surface of Faisalabad’s stabilization ponds.

One of the major issues in installation of FTWs was the choice of suitable floating rafts, that is one of the two major components of FTWs. The mats commercially available on the international market were too expensive to be installed in a low budget. Therefore, various kinds of other locally available and affordable materials with a tendency to last longer were evaluated to lessen capital investment in the project. Roof insulation foam made from polyethylene was found to be the best option due to its high buoyancy, physical durability, and low costs. To protect the mat from weathering due to sunlight exposure, mats were covered with soil and gravel after vegetation. 

Figure 1: A floating wetland unit made of polyethylene, vegetated with macrophytes, and covered with soil and gravel (Copyrights: Muhammad Afzal). 

The second major component of FTWs is plants; after testing several locally available plant species for performance and longevity, Phragmites australis, Typha domingensis, Leptochloa fusca, and Brachiaria mutica were selected as the best choices. Two flowering plants, Cana indica, and Rosa indica were also planted in the treatment wetlands to enhance their aesthetics.  

Figure 2: Unit mats are combined to construct a field-scale floating wetland system (Copyrights: Muhammad Afzal). 

The application of FTWs enhanced all standard water quality parameters and eliminated foul odor after a year of operation at an approximate cost of only US$ 0.0026 per m3 of treated wastewater. After five years of operation, the system is still working efficiently. Based on the successful application of this technology for the very first time in Pakistan, WASA and NIBGE signed another agreement for the application of FTWs in four more wastewater stabilization ponds at Chokera, Faisalabad. 

This blog post was developed together by Muhammad Afzal, Muhammad Arslan, and Jochen A. Müller.

Please sign in or register for FREE

If you are a registered user on Research Communities by Springer Nature, please sign in