Team:ITESM-Guadalajara/Market
From 2014.igem.org
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Traditionally, HCl and NaOH are important supplies for the demineralization and the deproteinization processes that chitin undergoes to become Chitosan. Each liter of these substances has an average cost of 5 MXN (.38 USD) and 200 MXN (15 USD) respectively. According to Professor Roberts, industrial plants usually produce close to 500 tons of Chitosan at an average cost of 11.50 USD (149.5 MXN), assuming raw material (shellfish waste) is available at a very low or even cero cost. This calculation does not include transportation costs and it is suggested by the author that considering them would double the price (23 USD/300 MXN). Additionally, eliminating HCL and NaOH decreases production costs in any plant, given that regulations in many countries require companies to treat the water derived from its operations (Roberts, 2008). | Traditionally, HCl and NaOH are important supplies for the demineralization and the deproteinization processes that chitin undergoes to become Chitosan. Each liter of these substances has an average cost of 5 MXN (.38 USD) and 200 MXN (15 USD) respectively. According to Professor Roberts, industrial plants usually produce close to 500 tons of Chitosan at an average cost of 11.50 USD (149.5 MXN), assuming raw material (shellfish waste) is available at a very low or even cero cost. This calculation does not include transportation costs and it is suggested by the author that considering them would double the price (23 USD/300 MXN). Additionally, eliminating HCL and NaOH decreases production costs in any plant, given that regulations in many countries require companies to treat the water derived from its operations (Roberts, 2008). | ||
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- | Taking chemicals out of the equation would lower costs of production considerably. Biophrame proposed biological process requires molasses and whey (milk serum), which are both wastes from other industrial processes and sold for 2. | + | Taking chemicals out of the equation would lower costs of production considerably. Biophrame proposed biological process requires molasses and whey (milk serum), which are both wastes from other industrial processes and sold for 2.5 MXN/0.19 USD per Kg and 0.39 MXN/0.03 USD per Lt, respectively. The industrial waste produced from this biological process would be high amounts of protein, biomase and calcium, which are both biodegradable and can even be treated and sold. Developing an enzyme-based method for converting chitin in Chitosan has obvious attractions such as environmental friendliness, lower chemical costs, higher molecular weight, quality and standardization (Roberts, 2008). |
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Nowadays Latin America consumes 530 tons of Chitosan per year and most of it is imported form producer countries. The biggest part of the product is sold by big companies such Sigma Aldrich and produced by companies such as KitoZyme, a Belgium based company famous supplier of fungi-derived high purity Chitosan. Prices in nonproducing countries increase due to import tax fees and transport costs. Nevertheless, industry is calculated to be growing at 18% per year (Instituto Nacional de Estadística y Geografía, 2014), (Instituto Nacional de Estadística y Geografía, 2014), (Sigma-Aldrich ). | Nowadays Latin America consumes 530 tons of Chitosan per year and most of it is imported form producer countries. The biggest part of the product is sold by big companies such Sigma Aldrich and produced by companies such as KitoZyme, a Belgium based company famous supplier of fungi-derived high purity Chitosan. Prices in nonproducing countries increase due to import tax fees and transport costs. Nevertheless, industry is calculated to be growing at 18% per year (Instituto Nacional de Estadística y Geografía, 2014), (Instituto Nacional de Estadística y Geografía, 2014), (Sigma-Aldrich ). | ||
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- | Mexico is the second biggest economy in terms of GDP, which is 1.2 Billion USD. The country represents about 22% of total Latin America’s GDP (5655 Billion USD). If we assume that Mexico’s weight in Latin American economy is 22%, we can infer that | + | Mexico is the second biggest economy in terms of GDP, which is 1.2 Billion USD. The country represents about 22% of total Latin America’s GDP (5655 Billion USD). If we assume that Mexico’s weight in Latin American economy is 22%, we can infer that Mexico consumes about 22% of the total 530 tons of Chitosan per year, which is 106 tons per year (Instituto Nacional de Estadística y Geografía, 2014), (Instituto Nacional de Estadística y Geografía, 2014). |
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- | In order to identify the size of both markets, our team created a sample of Latin-American customers who had requested Chitosan through online stores such as Alibaba.com, Quiminet.com and Amazon.com. Out of 234 observations, 34% where Mexican customers, whose requests went from 0.009 | + | In order to identify the size of both markets, our team created a sample of Latin-American customers who had requested Chitosan through online stores such as Alibaba.com, Quiminet.com and Amazon.com. Out of 234 observations, 34% where Mexican customers, whose requests went from 0.009 kg to 24000 kg per year. Also, out of all the requests, 26% demanded medium-low purity Chitosan and 6% demanded high purity Chitosan. The smallest order was posted by a Mexican student and the biggest one was posted by the general director of a water treatment plant. This proportion is similar to the US medium-low and high purity market, which is 75% and 17% respectively (Quiminet.com, 2014). |
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- | Taking into account that Mexico’s Chitosan consumption is near 106 tons per year, the medium low category consumption is 27.56 tons (27,560 | + | Taking into account that Mexico’s Chitosan consumption is near 106 tons per year, the medium low category consumption is 27.56 tons (27,560 kg) per year, and the high purity market is 6.36 tons (6,360 kg) per year (Quiminet.com, 2014). |
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http://www.quiminet.com/centro-negocios/se-requiere/8030847700117.htm | http://www.quiminet.com/centro-negocios/se-requiere/8030847700117.htm | ||
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<h4>Medium and low purity Chitosan (75-85% deacetylated/Medium molecular weight)</h4> | <h4>Medium and low purity Chitosan (75-85% deacetylated/Medium molecular weight)</h4> | ||
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- | Our process is designed to produce 50 | + | Our process is designed to produce 50 kg per month, making a total of 600 kg per year of medium purity Chitosan during the first phase. That means we would be entering the market with 2.17% of market share, serving as supplier of medium purity Chitosan for the water treatment industry, dietary supplements industry, cosmetics industry, the agrochemicals industry, pulp and paper industry, textile industry and photography products. Our process will consume the waste of the shrimp industry and the dairy industry (Zhao, Park, & Muzzarelli, 2010).</p> |
<img src="https://static.igem.org/mediawiki/2014/c/c9/BIOPHRAMEGDLMarket_5.jpg"> | <img src="https://static.igem.org/mediawiki/2014/c/c9/BIOPHRAMEGDLMarket_5.jpg"> | ||
<p>Market structure in Mexico and rivalry among competitors is defined by the following forces (see figure 21): | <p>Market structure in Mexico and rivalry among competitors is defined by the following forces (see figure 21): |
Revision as of 06:26, 17 October 2014