Hydrogen is one of the most promisi

Hydrogen is one of the most promising alterative to fossil fuels due to its clean, renewable, and high energy yield
(122 kJ g-1). It could be either directly combusted or used to produce electricity through fuel cells. Many processes,
thermochemical, electrochemical, and biological can be used to generate hydrogen [1]. Thermochemical and
electrochemical processes are not renewable due to their dependence on fossil fuels. Biological hydrogen
production more environmentally friendly since it is less energy intensive than non-biological processes.
Biohydrogen can be generated from different metabolic pathways including direct water biophotolysis by green
algae, indirect water bio-photolysis by cyanobacteria, photofermentation by photosynthetic purple non-sulfur
bacteria, hydrogen synthesis via water-gas shift reaction by microalgae in Rhodospirillaceae family, and dark
fermentation by heterotrophic anaerobic bacteria. Higher production rate, wider spectrum of substrates, and lower
energy requirement make dark fermentation more advantageous than other processes [2-4]. Broad types of organic
feedstocks such as glucose, starch, municipal waste, livestock manure, crop residues, food waste, and wastewater
have been utilized as substrates in the dark fermentation [5-8].
Banana is one of the most popular tropical fruits consumed worldwide. In Thailand, banana peel of 200 tons is
daily generated, and its generating trend becomes continuously increased [9]. A small fraction of the peel is used
for animal feed and the remaining becomes rotted garbage. The peel is carbohydrate rich (Table 1) and is potentially
converted into hydrogen and methane in the fermentation process.