Armen B. Avagyan scite author profile

Environmental building recommendations aimed towards new environmental policies and management-changing decisions which as example demonstrated in consideration of the problems of Canadian oil sands operators. For the implementation of the circular economic strategy, we use an in-depth analysis of reported environmental after-consequence on all stages of the production process. The study addressed the promotion of innovative solutions for greenhouse gas emission, waste mitigation, and risk of falling in oil prices for operators of oil sands with creating market opportunities. They include the addition of microalgae biomass in tailings ponds for improvement of the microbial balance for the water speedily cleaning, recycling, and reusing with mitigation of GHG emissions. The use of food scraps for the nutrition of microalgae will reduce greenhouse gas emission minimally, on 0.33 MtCOeq for Alberta and 2.63 MtCOeq/year for Canada. Microalgae-derived biofuel can reduce this emission for Alberta on 11.9-17.9 MtCOeq and for Canada on 71-106 MtCOeq/year, and the manufacturing of other products will adsorb up to 135.6 MtCO and produce 99.2 MtO. The development of the Live Conserve Industry and principal step from non-efficient protection of the environment to its cultivation in a large scale with mitigation of GHG emission and waste as well as generating of O and value-added products by the use of microalgae opens an important shift towards a new design and building of a biological system.

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Water global recourse management through the use of microalgae addressed to sustainable development

Avagyan¹

2010

Clean Techn Environ Policy

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Theory of Global Sustainable Development Based on Microalgae in Bio and Industrial Cycles, Management-Changing Decisions in Areas of Climate Change and Waste Management

Avagyan¹

2013

JSBS

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The paper provides requested management-changing decisions through implementation of conclusions of Global Sustainable Development theory based on including of microalgae in Bio and Industrial Cycles in the area of waste-related management challenges within creating market opportunities for industry through expansion of resource efficiency use across global supply chains and new design and building sustainable development with contemporary manufacturing of value added products. A truly coherent waste management and other production policy (biofuel, biopharmaceuticals, food, feed and perfumery additives) and mitigation of Climate Change are ways to bring these traces closer to cost effective manufacturing, improving of resource efficiency use, well being economy and human health. Offered technological change dramatically increase biomass feedstock resources, reduce waste origin of greenhouse emission (since 13%-17%), organics sent to landfill, pyrolyses, etc. and create a model that all elements along the waste value chain create economic, societal and/or environmental value.

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New Design &amp; Build Biological System through the Use of Microalgae Addressed to Sustainable Development

Avagyan¹

2010

JEP

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Current trends in energy consumption and biofuel manufacturing are neither secure nor sustainable, because they are not provided by necessary cost effective technologies. Further reductions of cost and technological development will be needed for biofuels to be able to compete effectively without subsidy. With the debate raging about raw material of biofuel, microalgae may offer a solution to this conundrum; creating enormous reserves of biofuels and boosting feed production. In this goal Center suggest projects, which incorporate water recourse management and restoration of lakes, freshwater conservation and cleanup through cost effective biodiesel manufacturing as well as pharmaceuticals destruction through the use of microalgae Chlorella and wastewaters aimed to replace the burning technology includes also supplying biofuel profitably and developed pilot bussiness plan based on the cost effective technology through applying new innovative approaches in various stages of microalgae production. The benefits of microalgae are so overwhelming that this, combined with the prospect of the improvement in nature protection, makes it imperative for the world to devise an international response and a plan of action. Incentives will be needed for the development of industry-led platforms such as the World Microalgae Technology Platform and its international financial fund. Microalgae must be the key tool for the new design and building sustainable development and environment management.

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Armen B. Avagyan

A contribution to global sustainable development: inclusion of microalgae and their biomass in production and bio cycles

Environmental building policy by the use of microalgae and decreasing of risks for Canadian oil sand sector development

Water global recourse management through the use of microalgae addressed to sustainable development

Theory of Global Sustainable Development Based on Microalgae in Bio and Industrial Cycles, Management-Changing Decisions in Areas of Climate Change and Waste Management

New Design &amp; Build Biological System through the Use of Microalgae Addressed to Sustainable Development

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About

Armen B. Avagyan

A contribution to global sustainable development: inclusion of microalgae and their biomass in production and bio cycles

Environmental building policy by the use of microalgae and decreasing of risks for Canadian oil sand sector development

Water global recourse management through the use of microalgae addressed to sustainable development

Theory of Global Sustainable Development Based on Microalgae in Bio and Industrial Cycles, Management-Changing Decisions in Areas of Climate Change and Waste Management

New Design &amp;amp; Build Biological System through the Use of Microalgae Addressed to Sustainable Development

Contact Info

Product

Resources

About

New Design & Build Biological System through the Use of Microalgae Addressed to Sustainable Development