Algal growth in various waste water

Algal growth in various waste waters
To develop a concept for algal energy, including the utilization of waste resources
in production of biodiesel and biogas from algae, it was important to identify available
and suitable waste streams, as well as to choose the algal strains for testing.
3. Algal cultivation for lipid production in waste water
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Suitable waste streams were identified both from literature and by interviewing
stakeholder companies in the project. The companies also provided data on their
own waste water streams for evaluation of their possible use as algal cultivation
media. Based on that information, the waste streams with the most potential were
tested in small scale laboratory assays and at pilot scale. The main focus was on
waste streams rich in organic carbon, nitrogen and phosphorus (Kautto 2011).
Carbon and nutrient rich waste streams are most suitable for heterotrophic or
mixotrophic species, while autotrophic species require only nutrient rich waste
streams.
The companies interviewed were interested in manure and agricultural waste
waters, municipal waste waters, reject water from sewage treatment, cooling water
from biogas plants, distillery effluents, and leachate from landfills. Except for the
landfill leachate these waste streams were in principle all suitable for algal growth.
Landfill leachate was, however, low in carbon and nutrients and generally containing
toxins (Päijät-Hämeen Jätehuolto Oy). The other waste streams appeared
more suitable. Easy availability and company stakeholder interest were the pragmatic
criteria applied to choose the waste streams for laboratory and pilot scale
testing. The chosen waste streams were also seen to be suitable for algal cultivation
in the literature (Kautto 2011). Thus reject water from a biogas plant, fish farm
water, fluid pressed from municipal organic waste before digestion, (hereafter
called press water) and two waste waters from a local composting plant in Lahti
were assessed (Table 2). The reject water was high in COD and BOD and rich in
nitrogen and phosphorus. Water from fish cultivation was collected from two different
farms. Nutrient concentrations, COD, and BOD in these waters were low.
The biowaste press water was very rich in nutrients and organic matter, but usually
very acidic. The press water analytical data was provided by Irene Bohn at Helsingborg
University (I. Bohn, Avfall Sverige, personal communication, 2010). The
waste streams from the composting plant in Lahti were leachate from the first
stage of the composting process (‘precomposting water’) and composting wetting
liquid (‘process water’). Characterization of these waste waters is presented in
Table 2.