Edible Mushroom Residue bioenergy conversion technologies

At present, several biomass thermochemical conversion equipments exist which can transform agricultural biomass into biofuels/bioenergy [3–6]. Nevertheless, there is a great challenge for a farm producer to select the best option due to the infancy of these technologies, intended application (mainly, wood biomass at large scale) as well as a

5. Biomass Conversion Technologies . In the context of this document, biomass conversion refers to the process of converting biomass into energy that will in turn be used to generate electricity and/or heat. The principal categories of biomass conversion technologies for power and heat production are . direct-fired . and . gasification . systems.

This study aimed to develop an energy-and resource-efficient process for the coproduction of edible mushroom, fermentable sugar and solid biofuel from wood residues. A promising potential was revealed for wood ear fungus (Auricularia

May 04, 2021 · While the percentage of studies reporting negative versus positive effects of bioenergy on food security varied on the basis of the type of bioenergy feedstock (edible, inedible, or both edible and inedible), both the parametric and nonparametric chi-squared tests indicated little evidence of a relationship between the type of bioenergy

Aug 04, 2017 · Spent mushroom compost derived from sorghum chaff has the potential to be an industrially useful substrate for producing second-generation bioethanol. This might be improved further through fractionation and exploitation of hemicellulosic moieties, and possibly the exploitation of the mycelium-containing final residue for animal feed.

Raw mushroom waste has been an enormous solid waste, not only causing a huge cut on profit margin of mushroom industries but also leading to environmental pollution. Unfortunately, the current utilization methods, such as pharmaceutical extractions, are unable to keep up with the waste generation rate due to the large-scale mushroom production. Yet, the utilization of raw mushroom waste to

1. Rice hull and dried water hyacinth leaves can’t produce mushrooms. 2. Rice hull and dried water hyacinth leaves can’t produce edible mushrooms. 3. There is no significant difference between producing edible mushroom using rice hull and water hyacinth leaves as compared to the traditional way of producing mushroom.

There are four types of conversion technologies currently available, each appropriate for specific biomass? types and resulting in specific energy products:. 1. Thermal conversion is the use of heat, with or without the presence of oxygen, to convert biomass mahaiqials or feedstocks into other forms of energy.

relevant to biomass resources, technologies, and markets. A list of 2007 Committee members is provided in Appendix A. 1.2 Roadmap Update Process The original Vision for Bioenergy and Biobased Products in the United States was established by the Committee at the request of the Secretaries of Agriculture and Energy in 2002. The Vision set

A water-soluble heteroglycan (PS) of an average molecular weight ∼1.98 ×10(5) Da was isolated from the aqueous extract of an edible mushroom Termitomyces clypeatus (R. Heim). The structure of the polysaccharide (PS) was established using total hydrolysis, methylation analysis, Smith degradation, and

Feb 29, 2016 · Fruiting bodies of two oyster mushroom (Pleurotus ostreatus and Pleurotus florida) species and their respective substrate samples cultivated and collected from the Mushroom Research, Production and Training Laboratory of the Haramaya University, Ethiopia, were analyzed for essential and non-essential metals, viz., Cu, Fe, Zn, Mn, Cd and Pb contents by flame atomic absorption spectrometry after

Apr 23, 2019 · The four-year project involves an interdisciplinary research collaboration with faculty from six RIT colleges. Babbitt’s research team is studying how innovative technologies, waste management systems, and policies can reduce the volume and environmental impacts of food waste—while at the same time creating economic growth and maximizing efficient use of energy and water resources.

Biomass conversion technologies Biomass conversion technologies for stationary electricity and heat generation. There is a wide range of feedstocks that can be used, and technologies and proceshaiqi for extracting energy from biomass and converting it into stationary bioenergy for heat and/or electricity.

This study aimed at analyzing the feasibility of converting diverse types of spent mushroom substrate (SMS) into fuel pellets for low-emission bioenergy producing systems. Sources of SMS for pelletization included paddy straw and achiote capsule haiqi from Pleurotus ostreatus , eucalyptus sawdust and grassy straw from Lentinula edodes , and

Oct 28, 2017 · Spent mushroom substrate (SMS) is the residue of edible mushroom production occurring in huge amounts. The SMS residue can be digested for biogas production in the mesophilic anaerobic digestion. In the present study, performance of batch thermophilic anaerobic digestion (TAD) of SMS was investigated as well as the interconnected microbial population structure changes.