Business case analyse Essay Example | Topics and Well Written Essays - 1000 words

Business case analyse - Essay Example In the assessment internal aspects of the partnership between Woolworths and eBay, the study focused on the utilization of SWOT analysis tool. This provides the opportunity to assess the strengths, weaknesses, threats, and opportunities in relation to business activities of the two major business entities in the case of Australia. The partnership will have the opportunity to enhance Woolworth’s market coverage through the integration of adequate resources to address consumers needs. Secondly, the approach will provide a new convenient and flexible approach for customers to handle their needs and preferences. Similarly, the approach will enable eBay to cut down logistic costs while enabling Woolworths to increase its stock, as well as number of customers for the products. One of the major weaknesses of the partnership is the likelihood of loss of employment for employees involved in the delivery of products, as well as increased competition for the retailers from Woolworths. Additionally, the partnership might affect the image and reputation of the entities in the global context. One of the opportunities to decrease the cost of transportation and logistics since customers will click and collect their products at appropriate destinations. The entities might use this platform to enhance their business relationship with the intention of increasing their market share in other locations within Australia. The Woolworths/eBay will have to deal with diverse lawsuits concerning violation of antitrust regulations. In addition, the damage to the image and reputation of the two entities might affect their global transactions, thus a massive reduction in the volume of revenues and profitability levels at the end of the fiscal period. In the achievement of this goal, the study focused on the utilization of the PEST analysis tool, thus assessment of the political, economic, social, and technological

Evaluation Report Essay Example | Topics and Well Written Essays - 2500 words

Evaluation Report - Essay Example As practice based learning is linked to the learning activities that require application of theories in a practical work scenario; it provided me the insight of the workplace which could not be achieved by sitting in a lecture room. Cherry et al. (2005) proposed that effective communication is the core of nursing profession. Keeping this in mind I have tried to analyze my communication skills developed, as part of the training session, by issuing handover reports to the nurses on the next shift. I have also made an effort to appraise the level of improvement in my listening skills. Through reflection I tried to summarize my personal and professional development during training. It is a process in which nurses’ team delivers the information about the patient’s care to other nurses normally as the shift changes. It usually focuses on the nursing care plan (Smith, 2004, p.4). Continued reflection on my experience enabled me to assess that handover is one beneficial way of communicating with other nurses. Through handovers nurses are better able to conceive the patient’s condition. Before this work based learning experience I used to make disorganized handovers but by the end of this shift I have witnessed several handovers instructed by the senior nurses and now I am proficient enough to develop a concise hand over in time. During my experience as a trainee nurse, I have seen nurses making unstructured handovers that were a total waste of time as they indicate patient’s information in a biased manner. The time assigned to submit a hand over was usually limited. Attendance was also mandatory at the time of handovers. According to me the current handover practice was efficient as I never witnessed the time of handover process changed. Handovers also formulates a way for personnel education and debriefing (Jones & Bourgeois, 2006, p.155).Nurses used to exchange handovers informally thus

Analysis of Desirees Baby By Kate Chopin

Analysis of Desirees Baby By Kate Chopin Desirees Baby has been set in the days before the abolition of slavery in the big farms/plantations owned by whites and tendered by black slaves in the Southern State of Texas. Monsieur Valmonde finds an abandoned baby by the wayside. His wife, Madam Valmonde, does not have a child of her own thus; she takes the baby and names her Desiree. Madam Valmonde and her husband, Monsieur Valmonde raise the child, until she turns 18 years-an age considered ripe for courtship and marriage (Chopin). Her beauty, elegance, and white skin attract Monsieur Aubigny, a plantation owner and widower who just returned from burying his wife in France. This essay provides an insight into alienation in relationships, the consequences of mans evil institutions like slavery and racism. Aubigny, the main character, feels a strong sense of alienation in his relationship with black slaves, a people that he greatly despises. They are an inferior race, generally a non-people in his eyes. Aubigny a rich white landowner is endowed with wealth and the right color. In the society that all the characters live, white is deemed acceptable and good. Anybody with a black skin is a social outcast, and they should be rejected to live the cursed life, that of slavery. Aubignys parents were white, and they instilled into him the right color that an endowed person should have or associate. His family is one of the initial sources of alienation. His upbringing constantly placed him on top of blacks, and this is why he denies his baby because it is turning black. Madam Valmonde also exclaimed that Desirees baby was not the baby implying that the babys origin and color will not be accepted by society as that of Aubignys. The society, immediate family, and close friends shape the status of an individual. The way people behave is largely affected by; how they perceive themselves and what society will think about them. Madam Valmonde refuses that Desirees baby is not the kind of child that society will accept. Society cannot accept that both Augbiny and Desiree, both white can have a black offspring, the cursed race. Augbiny cannot accept living with a woman who has given birth to an inferior being (Chopin). He cannot imagine what his close friends, family, and society will think about him. This is why he decides to alienate himself from both wife and child before society judges his behavior. His actions are dictated by society and not by self-worth. If society does not accept blacks, then he too cannot accept them. He burns everything that belongs to Desiree and her baby to get rid of any information that links his private life to blacks. This shows that he cannot outdo the code of conduct in his white dominated society. Desire too cannot imagine what society will think of her black baby and she chose to drown with him in a swamp. Madam Valmonde plays the role of society. She knows that the real father, Aubigny, will not accept the baby. She tries to express this to Desiree although she does not understand. She also plays the part of society that will accept the rejected. She willingly takes her daughter and grandson back. This shows her motherly love and concern for the unhappy daughter. Failure to accept her adopted daughter and grandson may cause her to be labeled as selfish and inhuman by society. The letter from Augbinys mother to his father serves the role of a wakeup call into reality. It jerks Augbiny into knowing that whatever he has rejected (black) is in his blood and in fact the source of his life (mother) (Chopin). A popular culture metaphor taken from the story is the one that describes Armand Aubignys features. He is described as a having a dark and handsome face that had not been disfigured by frowns. This metaphor implies that black is handsome although society does not accept people of color (Chopin).This metaphor shows the irony in societys code of acceptance. A person can be black and handsome and yet society had rather accept white and ugly because the later comes from a superior race while the earlier originates from an inferior race. Aubigny lacks a complete sense of direction. He knows that the origin of Desirees parents is not know and yet drinks into her beauty. He cannot accept the color of slaves thus results to deceit and wickedness to save his face in society. He is very ignorant of his looks and denies his looks. The fact that he does not acknowledge his ignorance, wants to satisfy the code of acceptance of society makes him ruin his relationship with his family. Ironically, He begins to treat the slaves fairly because he realizes that he has a black baby! Aubignys chooses the wrong path of letting go of his family because of the color of the baby. The baby just like his parents did not choose where to be born and in what color. Desiree also chooses the wrong path of killing herself and son. This because she feels that society cannot accept her and they may label her as a failure. She does not understand that one cannot satisfy the demands of society and being black is human. My sympathy goes to the baby who dies because of something that he does not have any power over. As for the married couple, they deserve what they get; they let society dictate everything that they believe in without realizing that nothing is perfect in the eyes of man. Society and its representatives like race, marriage, and slavery are faulted in this story. During the pre-colonial times, a slave could only marry a slave and a white to a white. However, whites could have sex with slaves with or without their consent. This resulted to colored people who could not be accepted because of their mixed heritage and the act of a white male siring with a black slave (one of the lowly acts). This story highlights racism, its effects on people who are victims and cannot accept it like Desiree and Augbiny. In this story, there is a great conflict between reality and fantasy. Augbiny fantasizes that he should get a girl instead of a boy. He further fantasizes that the beauty and fair skin of Desiree will help him to get a purebred white child who does not have any black flaws. Madam Valmonde also fantasizes that the child should have been white she says that openly à ¢Ã¢â€š ¬Ã‚ ¦this is not the child (Chopin). She knows that if the child is not white, then there is nothing foe Desiree. This is why she accepts both daughter and grandson. Women/girls are victims of their own making. They fail to understand that beauty or color alone cannot lead to a happy life. They do not comprehend their needs and the reason to live. Desiree argues with Augbiny that she is whiter than Augbinys. She writes a letter to her mother telling her that she is unhappy because of the mistreatment from her husband. This shows that she cannot accept to live as black, with a black child in a society that labels black as bad and cursed. In a case like these, men like Augbiny take advantage of misunderstandings and capitalize on them making women unhappy. They strain their relationship because they feel that they are following the code of acceptance of society. Women are also victims of societal demands. Desiree cannot be happy without a man and she does not want to imagine how society will see her. This makes her end her life and that of her baby in a tragic manner. A man like Augbiny is a victim of society and its institutions like slavery. Man spends so much time building racism and slavery and in the end, these two things swallow their lives into the unknown. Racism and slavery are meant to serve the interest of whites but it is ironical that they again destroy him especially when Augbiny discovers that he too is black. Augbiny expects his fantasies to be true thus lays all his hopes in color. If it is now white, he does not want anything to do with it. He falsely expects that society will accept him now that he has done away with family only to discover that he too is black. The moral issues that arise in this story are wickedness, deception, and misunderstanding. People shudder at the thought of being black or even being associated with the cursed race. Augbiny does not understand that color and origin of a human being can neither be changed nor be discarded. Desiree discards her color, that of her son and her origin in death. This implies that slavery and racism are things that are very evil in society and should be discarded or they will eat into the human soul. Blacks are human beings and color is only skin-deep and is dictated by their genes; things that none can suppress or change (Schneider). Madam Valmonde accepts her daughter and son. She is that part of society that embraces what the elites have rejected. Madam Valmondes letter to her daughter show the humanity, acceptance that can be found in the heart of the human race. The wickedness of the institution of slavery and racism is clearly depicted in this story. Augbinys mother prays that his son should never discover that he has a black mother. It clearly shows the way whites deny that blacks are human beings and a part of society. Death is very wicked because it embraces even the innocent like Desirees baby. It does not discriminate between the ignorant, rich or color. It just takes everything that comes on its way.

The Iliad of Homer Essay -- essays research papers

When analyzing the Greek work the Iliad, Homer procures an idealistic hero with an internal conflict, which questions the values of his society and the Greek Heroic Code. The Greek Heroic Code includes respect, honor, and requirements to procure an exorbitant image. To be considered a Greek hero you must meet the perquisites and fulfill all of the aspects of the code. Achilleus was deemed a hero, he was the strongest and swiftest of the Achieans. Achilleus lived up to all of these aspects until his internal conflict began in the Iliad. Homers purpose in the ending of book XXIV is to restore Achilleus after his reconciliation with the Greek Heroic Code.   Ã‚  Ã‚  Ã‚  Ã‚  Achilleus was the most honorable Greek warrior of his time. No one questions Achilleus, nor challenged him, because if they do they would be smite. Achilleus is honorable, he pays respect that is due, and gratefully thanks those who respect him. Up until his outrage in Book XXII all of Achilleus rituals have been consistent. When his temper overcame his natural inveterate intuition Achilleus immediately invoked all ordain and involvement in the Greek Heroic Code. One of Achilleus' major omissions can be found where he defies the corpse of Hektor. This motion surprised and befuddled the Greek Gods, and had them viewing a plan on a sleuth method of manipulation of the body of Hektor. This probationary period of time that the Gods created gave Achilleus enough time to debate and redirect his ritual...

Chemical Vision

Final Report Sponsored By ENGINEERING DEVELOPMENT BOARD Ministry of Industries & Production Government of Pakistan SEDC Building (STP) 5-A, Constitution Avenue Islamabad Tele: (051) 9205595, 9223734 Fax: (051) 9206161 Prepared By Technology Management International (Pvt) Ltd (TECHMA) 31/11-A, Abu Bakr Block New Garden Town, Lahore Tele: (042) 5881460 Fax-Cum-Tel: (042) 5881718 E-Mail: [email  protected] net. pk 2010 TABLE OF CONTENTS Description Page Nos. Acknowledgement Team of Experts Executive Summary. CHAPTER 1 Scope Of The World’s Chemical Industry 1. 1 Scope of the chemical industry. . 2 Category wise breakdown of the chemical industry. 1. 3 Research and development in the chemical industry. 1. 4 Classification of the chemical industry development of Pakistan – Vision 2030. CHAPTER 2 Potential for the development of secondary chemical industries based on feedstocks derived from primary industries. 2. 1 Feedstocks derived from primary industries for the potential development of secondary chemical industries. †¢ Crude oil based petroleum and petrochemical refineries. †¢ Olefin petrochemical complex. †¢ Aromatic petrochemical complex. 2. 2Natural gas based chemicals. 2. 3 Alternative feedstocks for the production of commodity chemicals. 2. 4. Feedstocks derived from metallurgical plants and polymers, materials technology and metallurgical processes. 2. 5 Other mineral based projects consisting of acid and alkali industries, cement and glass plants based on limestone, gypsum, rock salt, sulphur and silica. 2. 6 Agro based feed stocks. 2. 7 Sources of raw materials and process technologies for chemical industry development in Pakistan. 2. 8 Categorization of secondary chemical industries in Pakistan. CHAPTER 3The present status of the chemical industry in Pakistan. 3. 1 General 3. 2 The structure of Pakistan’s imports and exports. 3. 3 The role of government in industrial development. 3. 4 Limitations of Pakistan’s industrial policies for chemical industry development. i-vii 1 1 1 4 5 1 1 1 3 5 7 10 13 17 17 20 21 1 1 3 8 12 Continued†¦Ã¢â‚¬ ¦. Page 1 of 2 CHAPTER 4 4. 1 Modernization of the national innovation system for chemical industry development in Pakistan. †¢ Limitations of Pakistan’s N. I. S. †¢ The scope of Engineering Development Board with additional responsibility for technology development and proposed tructure of Technology Development Board. 4. 2 The role of the national committee in research and technology development. 4. 2. 1 The current status of R&D in Pakistan. 4. 2. 2 National committee for research and technology development. 4. 3 National committee for the development of software and hardware for the commercialization of technologies. 4. 4 National committee for the development of technology policy and investment planning. 4. 5 Human resource development. 4. 6 Integrated plan for the development of a national innovation system. 4. 7 Industrial mast er plan. CHAPTER 5Profiles of Present Secondary Chemical Industries of Pakistan. (Section 1) Caustic soda (Section 2) Soda ash & sodium bicarbonate Section -3) Petrochemicals 1 2 4&5 5 6 7 10 13 15 16 20 1-11 12-19 20-37 CHAPTER – 6 Proposal For The Future Development Of Secondary Industries In Pakistan 1-5 CHAPTER – 7 Industrial Trade Policies 7. 1 Imports, tariff and custom duties. 7. 2 Tariff escalation, description and peaks. 7. 3 Other imports duties/taxes. 7. 4 Competitiveness of exports from Pakistan. CHAPTER 8 Conclusions and Recommendations. Attachments Annexure â€Å"A† References 1 2 3 4 1-5 -3 Page 2 of 2 ACKNOWLEDGEMENTS I am grateful to Mr Asad Ilahi, Chief Executive Officer of the Engineering Development Board, and his dedicated staff, Mr. M. Farooq Khan, General Manager (Policy); and Mr Yasir Qurban, Project Engineer. They gave their full support in the conception of the project for â€Å"Chemical Industry Development – Vision 2030† and provided invaluable information and data, which were essential for the successful development of the project. My thanks to my colleagues and associated consultants: Mr Muhammad Sadiq Chaudhry, Dr M. Khalid Farooq and Mr Pervaiz A. Khan.They were a source of inspiration and played an active role in discussions for the development of the strategy. Thank you to my daughter, Leila Butt, for editing this report. Dr Waheed M. Butt EXECUTIVE SUMMARY The global chemical industry forms the fabric of the modern world. It converts basic raw materials into more than 70,000 different products, not only for industry, but also for all the consumer goods that people rely on in their daily life. The modern chemical industry is divided into four broad categories, comprising basic chemicals, life sciences, specialty chemicals and consumer products.Its outstanding success is largely due to unceasing scientific and technological breakthroughs and advances, which have led to the development of new p roducts and processes. Chemical industry development in Pakistan has been classified into (i) the primary sector chemical industry and (ii) the secondary sector chemical industry. Primary sector industries are large-scale, capital intensive industries comprising refineries, petrochemicals, natural gas, metallurgical and mineral based projects. They also provide feedstocks for the secondary chemical industry.Secondary industries are based on feedstocks either derived from primary sector industries, or other alternative sources of raw materials. These are less capital intensive and are based on high, medium or less sophisticated technologies. The secondary sector industries form the basis for the proposed â€Å"Chemical Industry Development – Vision 2030†. Primary sector industries which provide feedstocks for the development of secondary sector chemical industries, as well as other alternative sources of feedstocks consist of: (i) Petroleum and petrochemical refineries. These provide petrochemical intermediate chemicals, which form the building blocks for the production of a very large number of secondary chemicals, such as polymers, fibers, pharmaceuticals, drugs, dyes and colours, insecticides, pesticides, resins, paints, pigments, specialty chemicals, and a very large number of consumer and construction materials and products. (ii) Natural gas based chemicals, which consist of methanol and ammonia. These can also be used for the production of a large number of secondary chemicals. (iii) Metallurgical metals and non-metals based secondary chemicals and products.Executive Summary Page i of vii (iv) Alternative renewable feedstocks for the production of secondary chemicals consist of bio-mass, agricultural wastes, oils and fats, molasses and power alcohol. (v) Unconventional natural gas. (vi) Mineral based secondary chemical industries derived from coal, limestone, gypsum, rocksalt, silica sand and sulphur. (vii) Vegetable and herbal plants used in the production of secondary chemicals, such as dyes, medicines, drugs, cosmetics and associated products. The development of secondary chemical industries are divided between projects ased on sophisticated technologies, and those based on medium and less sophisticated technologies. Development of the chemical industry in Pakistan is lagging behind those of other emerging markets. The various factors which have hampered the development of this industry in Pakistan are: (i) An underdeveloped industrial infrastructure. (ii) Reliance on foreign engineering and construction companies for the commercialization of locally developed or imported technologies. (iii) Imports of second-hand highly energy intensive plants based on antiquated technologies. iv) Reliance on the development of resource based, low technology, labour intensive products for export. The objective of â€Å"Chemical Industry Development – Vision 2030† is for: (i) Pakistan to create its own capability and ac hieve self-reliance in project design, engineering and the construction management required for the commercialization of technologies. (ii) To develop capability in the production of medium and high technology based chemicals for export, alongside to the present industrial structure based on low technology resource based products. iii) To provide suitable incentives to entrepreneurs for the development of an exportoriented chemical industry. Executive Summary Page ii of vii The development of the chemical industry in Pakistan started in the 1950s and is based on five year plans, with the first plan covering the 1955-60 period. Economic growth was based on a policy of import substitution, resulting in varying rates of growth of between 3. 1-6. 8% over 1950-70. However, this masks a highly variable performance: the rate of growth slowed in the early 1970s to an annual average of 4. %, but the economy was revitalized in the late 1970s and 1980s, before weakening again. However, in view of the inconsistencies in the development of trade policies geared towards export-led growth, Pakistan has failed to boost exports of its manufactured goods. By comparison, economic growth in Southeast Asian countries from the 1960s onwards, and in India, China and other late comers from the 1980s, was driven by their exportoriented industrialization policies. All these countries introduced market reforms and provided various incentives and subsidies in order to enhance their exports of manufactured goods.In addition, these countries also developed their own technology and engineering infrastructure by virtue of which they achieved self-sufficiency in the utilization and commercialization of their technologies. As a result, they have achieved strong annual average growth rates of between 8-11% over the past three decades. Traditionally, exports from Pakistan have been dominated by goods produced with low technology, resource based feed stocks, such as textiles, cotton, readymade ga rments and leather. These comprise about 60% of total exports.The composition and share in exports of medium and high technology based products, comprising chemicals, petrochemicals and other manufactured products is very small and has fluctuated between 8-10% of total exports from Pakistan. Conversely, Pakistan has a very high dependence of imports of high value-added goods, which are more expensive. Chemicals, drugs, medicines and dyes, as well as capital plant, equipment and machinery, together account for about 40% of total imports with an estimated value of US$16. 3 billion for the year 2007/08.As a result, the trade balance has been continually increasing and stood at US$20. 9 billion in 2007/08. Present trends in Pakistan’s exports of lower technology goods indicate that it is facing increasing competition from India, China and Bangladesh. In addition, global demand for Executive Summary Page iii of vii these products is declining, and the need for higher technology pr oducts is rapidly growing. This situation calls for a concerted effort towards the development of a chemical industry based on medium and highly sophisticated technologies.Pakistan has only developed its basic industries, consisting of refineries, fertilizers, cement, sugar, polyester fibers and some other petrochemical based polymer industries, to fulfill local demand. These industries have been predominantly developed by foreign engineering corporations, which were awarded contracts on turnkey basis. However, Pakistan has failed to assimilate these imported technologies, or use them either for the replication of these plants or in the development of associated chemical projects.This dependence on the production and exports of low-valued added goods has held back Pakistan’s economic performance and revenue-earning potential. By comparison, South and Southeast Asian countries put special emphasis on the development of high technology goods for export. They achieved this throu gh trade liberalization, but their governments’ also introduced industrial policies that focused on the maintenance of macroeconomic stability, the provision of industrial and technology infrastructure, improvements to market institutions and high levels of public investment.These countries established public organizations which supported production activities, but they also relied on private firms for the success of their industrial policies. For example, China, which retains its socialist form of governance, introduced market reforms and advocated the so-called Open Door Policy. It also created two large public sector corporations: China National Petroleum Corporation (CNPC), for the production and exploration of oil and gas; and China Petrochemical Corporation (SINOPEC) for the development of its petrochemical industry.China also created Petro-China as a Holding Company, which offered its shares on international markets. The value of this company was estimated at US$100 bi llion in 1999, but has since risen to US$1. 1 trillion in 2008. The salient features of China’s public private partnerships (PPPs) is that the public sector is the major shareholder in the development of its capital intensive industries, whereas the private sector is the majority equity partner in the development of secondary projects. Executive Summary Page iv of viiRapid industrialization in Japan and South Korea was driven by multinational conglomerates—Keiretsus and Chaebols—which created vertical and horizontal diversification of their businesses, with the active support of their respective governments. This pattern, in many cases has been followed by newly industrialized countries (NICs). Pakistan’s industrial infrastructure is limited and it relies primarily on foreign design and engineering companies for the commercialization of local and imported technologies.Therefore, there is immediate need for enhancing and modernizing its national innovation system (NIS). This is the framework by which a country brings about technological change, and consists of research and development (R&D) institutions, the infrastructure for commercialization of technologies, the structure of educational and technical institutions, regulatory agencies, information networks, financial institutions and marketing. Process science and engineering technology (PS&ET) is an important component of a NIS and is the foundation for the development of the chemical industry.It integrates various elements of the processes of commercialization, from R&D to process design, project engineering, construction, operations and marketing management. Taken together, these provide the basis for manufacturing excellence and sustainable competitive advantage. In order to meet the goals of â€Å"Chemical Industry Development – Vision 2030†, it is essential for Pakistan to enhance its PS&ET capability. We propose that the scope of the Engineering Development Boa rd should be enhanced and given the additional responsibility to modernize and strengthen the NIS as the basis for technology development.In order to achieve this objective, three committees should be established under the direction of a Technology Development Board (which will be an enhanced Engineering Development Board): (i) A National Committee for research and technology development, (ii) A National Committee for the development of software and hardware for the commercialization of technologies. Executive Summary Page v of vii (iii) A National Committee for the development of technology policy and investment planning.The role of the National Committee for research and technology development will be to foster linkages between universities, R&D institutions and the chemical industry. Various tasks to be undertaken by this committee will include the formation of sub-committees for different sectors of the chemical industry; identification of problems of each sector; selection of R &D teams from universities, industry and R&D institutes for multidisciplinary research; continual appraisal and economic evaluation of laboratory and pilot scale work; and selection and adoption of technologies for commercialization.The processes of commercialization of local or imported technologies depends on the application of science, engineering, design, instrumentation and control, safety and environment, and many other aspects of capital plant manufacturing, construction, operations and marketing management. In order to develop local capability in various areas of project management, we propose the formation of a National Committee for the development of software and hardware as PPP projects.The functions of this Committee will be to support the development of existing or new engineering companies for various tasks. These include the identification of new projects; the preparation of investment studies on international criteria; the formation of financial packages; the develo pment of software and hardware and its application in design and engineering; the development of engineering specifications for capital plant manufacturing; construction; management; and many other functions such as revamping and modernization of old plants, and facilities for reverse engineering.The successful utilization of various components of technology will depend on the ability of the government to foster PPPs with the involvement of industrial and venture capital institutions and a vibrant entrepreneurial class. We suggest that a National Committee for the development of technology policy and investment Planning should be established for: (i) The provision of suitable incentives to potential investors, in order to accelerate the processes of chemical industry development and the revision of industrial policies on continual basis.Executive Summary Page vi of vii (ii) The development of investment policies and infrastructure for capital formation. In order to facilitate the fo rmation of investment, we recommend that a Holding Company should be established with the participation of the financial sector, international donors, friends of Pakistan, overseas Pakistanis and other investors, who would be invited to subscribe as share holders in this company. Profiles of various sectors of existing chemical industries in Pakistan have been prepared.These consist of World’s present and projected production, World trade, local production in Pakistan, local market size, local demand, imports, future prospects for each sector of industry, SWOT analysis with special references to weaknesses, threats and opportunities as well as present tariff structure on Pakistan. Proposals for the future developments of Secondary Industries in Pakistan have been prepared and suggestions for the development of secondary chemical projects based on locally available as well as imported materials have been made.The proposed industries have been divided into various sectors consi sting of minerals, metallurgical, agro-based alternate sources of energy, oils and fats and petrochemicals based projects. A number of potential projects in each sector have been proposed and it is suggested that EDB initiate the development of feasibility studies on each of these projects for their future implementation. An integrated plan for development of NIS has been proposed and various other equirements consisting of the application of computational technologies, human resource requirements, and the development of coherent industrial policy are also considered necessary. An Industrial Master Plan must be prepared for the implementation of various elements of the NIS, which should identify Pakistan’s capabilities and limitations in various priority sub-sectors of the chemical industry. It should develop policy measures and provide fiscal incentives in order to promote investment in various sectors of chemical industry.The development of a NIS on international standards will provide tens of thousands of job to Pakistan’s highly qualified manpower. Executive Summary Page vii of vii CHAPTER 1 1. 1. 1 SCOPE OF THE WORLD’S CHEMICAL INDUSTRY Scope of the Chemical Industry The chemical industry comprises the companies that produce industrial chemicals. It is central to the modern world economy, as it converts raw materials into more than 70,000 different products. The chemical industry is more diverse than virtually any other industry in the world. Its products are omnipresent.Chemicals are the building blocks for products that meet our most fundamental needs for food, shelter and health, as well as products vital to the high technology world of computing, telecommunications and biotechnology. They are used to make a wide variety of consumer goods, and are also inputs in agriculture, manufacturing, construction and services industries. In particular, chemicals are a keystone of world manufacturing, as they are an integral component of all m anufacturing sub-sectors, including pharmaceuticals, automobiles, textiles, furniture, paint, paper, electronics, construction and appliances.It is difficult to fully enumerate the uses of chemical products and processes, but the following nomenclature gives some indication of the level of diversity: Polymers and plastics–especially polyethylene, polypropylene, polyvinyl chloride, polyethylene terephthalate, polystyrene and polycarbonate–comprise about 80% of the chemical industry’s output worldwide. The chemical industry itself consumes 26% of its own output. Major industrial products include rubber and plastics, textiles, apparel, polymers, pulp and paper, and primary metals.Chemicals are nearly a US$3 trillion global enterprise, with chemical companies in the EU, US and Japan being the world’s largest producers. 1. 2 Category Breakdown of the Chemical Industry The marketing of the chemical business can be divided into a few broad categories, including basic chemicals (about 35-37% of US dollar output), life sciences (30%), specialty chemicals (20-25%) and consumer products (about 10%). ___________________________________________________________________________ Chapter – 1Page 1 of 1 BASIC CHEMICALS or â€Å"commodity chemicals† are a broad chemical category, which include polymers, bulk petrochemicals and intermediates, other derivatives and basic industrials, inorganic chemicals and fertilizers. Polymers–the largest revenue segment, at about 33% of the basic chemicals US dollar value–include all categories of plastics and man-made fibers. The major markets for plastics are packaging, followed by home construction, containers, appliances, pipe, transportation, toys and games.The largest volume polymer product, polyethylene (PE), is used mainly in packaging films and other products, such as milk bottles, containers and pipes. Polyvinyl chloride (PVC), another large volume product, is principally used to make pipes for construction markets, as well as siding and, to a much smaller extent, transport and packaging materials. Polypropylene (PP), which is similar in volume to PVC, is used in markets ranging from packaging, appliances and containers, to clothing and carpeting.Polystyrene (PS), another large-volume plastic, is used principally for appliances and packaging, as well as toys and recreation. The leading man-made fibers include polyester, nylon, polypropylene and acrylics, with applications including apparel, home furnishings, and other industrial and consumer use. The principal raw materials for polymers are bulk petrochemicals. Chemicals in the bulk petrochemicals and intermediates category are primarily made from liquefied petroleum gas (LPG), natural gas and naphtha. Their sales volume is close to 30% of total basic chemicals.Typical large-volume products include ethylene, propylene, benzene, toluene, xylenes, methanol, vinyl chloride monomer (VCM), styrene, butadiene and ethylene oxide. These chemicals are the starting materials for most polymers and other organic chemicals, as well as much of the specialty chemicals category. Other derivatives and basic industrials include synthetic rubber, surfactants, dyes and pigments, resins, carbon black, explosives and rubber products. They contribute about 20% to basic chemicals’ external sales. ___________________________________________________________________________ Chapter – 1Page 2 of 2 Inorganic chemicals (about 12% of revenue output) are the oldest of the chemical categories. Products include salt, chlorine, caustic soda, soda ash, acids (such as nitric, phosphoric and sulfuric), titanium dioxide and hydrogen peroxide. Fertilizers are the smallest category (about 6%) and include phosphates, ammonia, urea and potash chemicals. LIFE SCIENCES (about 30% of the dollar output of the chemical business), include differentiated chemical and biological substances, pharmaceuticals, diagnostics, animal health products, vitamins and crop protection chemicals.While much smaller in volume than other chemical sectors, their products tend to have very high prices–over US$10 per pound–with research and development (R&D) spending at 15-25% of sales. Life science products are usually produced to very high specifications and are closely scrutinized by government agencies such as the US Food and Drug Administration (FDA). Crop protection chemicals, about 10% of this category, include herbicides, insecticides and fungicides. SPECIALTY CHEMICALS are a category of relatively high value-added, rapidly growing, chemicals with diverse end-product markets.They are generally characterized by their innovative aspects–products are sold for what they can do rather than for what chemicals they contain. Products include electronic chemicals, industrial gases, adhesives and sealants, as well as coatings, industrial and institutional cleaning chemicals, and catalysts. Coatings comprise about 15% of specialty chemicals sales, with other products ranging from 10-13%. Specialty Chemicals are sometimes referred to as â€Å"fine chemicals†. CONSUMER PRODUCTS include direct product sales of chemicals such as soaps, detergents, and cosmetics.The chemical industry has shown rapid growth for more than fifty years. The fastest growing areas have been in the manufacture of synthetic organic polymers used as plastics, fibres and elastomers. Historically and currently the chemical industry has been concentrated in three areas of the world: Western Europe, North America and Japan (the so-called Triad). The EU remains the largest producer, followed by the US and Japan. ___________________________________________________________________________ Chapter – 1Page 3 of 3 The traditional dominance of chemical production by the Triad is now being challenged by changes in feedstock availability and price, labour and energy costs, differential rates of economic gro wth and environmental pressures. Instrumental in the changing structure of the global chemical industry has been recent rapid economic growth in China, India, Korea, the Middle East, Southeast Asia, Nigeria, Trinidad, Thailand, Brazil, Venezuela, and Indonesia. 1. 3 Research and Development in the Chemical IndustryThe outstanding success of the global chemical industry is largely due to scientific and technological breakthroughs and advances, facilitating the development of new products and processes. The US chemical industry now spends about US$17. 6 billion annually on R&D. In fact, according to study by the Institute for the Future (IFTF), the chemical industry is one of the eight most research-intensive industries. The scientific and technical research of these industries makes our lives safer, longer, easier and more productive.When one reviews the contributions of the chemical industry to our civilization, it becomes clear that rather than any single individual invention or te chnological breakthrough, it has been the industry’s overall commitment to R&D that has been its most significant legacy. Investment in R&D is the single greatest driver of productivity increases, accounting for half or more of all increases in output per person. R&D is the source of new products that improve our quality of life, and new processes that enable firms to reduce costs and increase competitiveness.As we look to the future, it is apparent that continued investment in technology is necessary for industry to meet the needs and expectations of future generations. Reaching the goals of â€Å"Chemical Industry Development – Vision 2030† will require Pakistan to build its technology infrastructure, consisting of investment in technology development, computer aided design, engineering, plant and equipment manufacturing, construction and marketing management. These areas of development have been grossly neglected in the past and are the major reasons for the present plight of the chemical industry in the country. __________________________________________________________________________ Chapter – 1 Page 4 of 4 The industrial sector drives the global economy, collectively transacting almost US$3 trillion per annum. An industry is a collection of companies that perform similar functions. Industry can be used to refer to all company groups, or as being a set of entities that utilize productive forces to convert a simple input into a processed final product. The size of various industries varies by country, level of development and external demand. . 4 Classification of the Chemical Industry Development of Pakistan – Vision 2030 For the purpose of the â€Å"Chemical Industry Development – Vision 2030†, this industry is divided into: †¢ Primary sector industries and †¢ Secondary sector industries. Primary Sector Industries The Primary sector industry generally involves the conversion of natural resources into primary products. These are large, highly sophisticated, technology-based, capital intensive projects consisting of: (i)Petroleum refining and petrochemical industries for the production of petrochemical intermediates, olefins (ethylene, propylene, butylenes) and BTX (benzene, toluene, xylene), all of which form the basis for the development of monomers, polymers and plastic industries. (ii) Natural gas based projects for the production of ammonia, methanol, fertilizers and associated products. (iii) Mineral based industries consisting of cement, limestone, gypsum, sand and salt. (iv) Smelting and refining of ferrous and non-ferrous metals. They also produce raw materials for Secondary industries. v) Agriculture and Farming Industries These constitute naturally occurring, renewable sources of raw materials, such as cotton, oils and fats, sugar, agricultural wastes (bio-mass) and raw materials for a large number of downstream industries. ________________________________________ ___________________________________ Chapter – 1 Page 5 of 5 Secondary Sector Industries The principal objective of Secondary sector industries is to provide the connective link between products and materials produced by Primary industries, which are of practical use to the national economy.This implies that the Secondary industries rely on the Primary industries for feedstocks and raw materials for use in manufacturing, processing, blending, fabricating plants for petrochemical intermediates, polymers, plastics, steel, non-ferrous metals, minerals, agricultural and miscellaneous products. These industries use medium- to high-sophisticated technology, and range from light to medium categories. THE SECONDARY SECTOR INDUSTRIES WILL FORM THE BASIS FOR â€Å"CHEMICAL INDUSTRY DEVELOPMENT IN PAKISTAN – VISION 2030†. __________________________________________________________________________ Chapter – 1 Page 6 of 6 CHAPTER 2 2. POTENTIAL FOR THE DEVELOPMENT OF SE CONDARY CHEMICAL INDUSTRIES BASED ON FEEDSTOCKS DERIVED FROM PRIMARY INDUSTRIES 2. 1 Feedstocks Derived from Primary Industries for the Potential Development of Secondary Chemical Industries Primary chemical industries, which are manufactured through the utilization of various feedstocks, consist of large-scale, highly capital intensive plants, based on sophisticated technologies.These projects also provide raw materials for the development of secondary chemical industries and consist of: †¢ Crude oil based refineries and petrochemical complexes. †¢ Natural gas based chemicals and fertilizer projects. †¢ Alternative renewable feedstocks for the production of commodity chemicals †¢ Metallurgical plants for the production of iron, steel, and non-ferrous metals. †¢ Other mineral projects consisting of acid and alkali industries, and cement and glass plants based on limestone, gypsum, rock salt, sulphur and silica. †¢ Projects based on agro feedstocks.Crude Oil Based Petroleum and Petrochemical Refineries Petroleum refineries are designed to produce a limited number of products, which are primarily used as a source of energy in road, rail and air transport; power plants; steam generation; and heating media in the chemical industry. They do not produce high value-added chemicals unless they are integrated with petrochemical plants–generally designated as Petrochemical Refineries–which are highly energy efficient and produce diversified feedstocks and raw materials for a large number of secondary chemicals.A petrochemical is any chemical compound obtained from petroleum or natural gas, or derived from petroleum or natural gas hydrocarbons and utilized in the production of a large variety of secondary chemicals and products. The definition has been broadened to include the whole range of aliphatic, aromatic and organic ________________________________________________________________________________________ Chapter – 2 Page 1 of 23 chemicals, as well as carbon black and such inorganic materials as sulphur and ammonia. In many instances, a specific chemical included among the etrochemicals may also be obtained from other sources, such as coal, coke or bio-mass. Petrochemical based secondary chemicals include such items as plastics, soaps and detergents, solvents, drugs, fertilizers, pesticides, explosives, synthetic fibers and rubbers, paints, epoxy resins, and flooring and insulating materials. Petrochemicals are found in products as diverse as aspirin, boats, automobiles, aircraft, polyester and acrylic fibers, recording discs and tapes. Natural gas and crude oil are referred to collectively as petroleum. Crude oil consists of the heavier constituents that naturally occur in liquid form.Natural gas refers to the lighter constituents of petroleum that naturally occur in gaseous form, either on its own as free gas, or in association with crude oil. The production of petrochemical based intermedia te chemicals form the feedstocks for secondary industries as part of a two stage process. In the first stage, crude oil is distilled and fractionated to produce a number of products consisting of gasoline, naphthas, and light and heavy gas oils, which are used as a source of energy for road and air transport, and power generation.Simultaneously the off gases, light and heavy naphthas, and gas oils are predominantly used as the starting materials for petrochemical projects. This is illustrated in Fig 2. 1. In the second stage the off gases and naphthas are further processed into two separate operations to produce Petrochemical intermediate chemicals or monomers as follows: ________________________________________________________________________________________ Chapter – 2 Page 2 of 23 Petrochemical Feedstocks Crude Oil To Petroleum Refinery Atmospheric Distillation Methane &Off Gases Gasoline And Motor Spirit Light and Heavy Naphtha Light and Heavy Gas Oil Residue Petrochemica l Feedstock Off Gases/Naphtha/Gas Oil Catalyst Cracking Aromatics Steam Cracking Olefins Fig 2. 1 Olefin Petrochemical Complex Refinery off gases, naphthas or gas oils are reformed at high temperatures in the presence of steam to produce monomers (ethylene, propylene and butylenes). These are gases at ordinary temperatures and pressures and can only be transported at high pressures and low temperatures as liquids under refrigerated condition.These are preferably processed further at site to produce secondary petrochemical products or polymerized into polymers, such as polyethylene, polyvinylchloride, polystyrene, ethylene glycol and many other secondary chemicals as illustrated in Fig 2. 2 and 2. 3. ________________________________________________________________________________________ Chapter – 2 Page 3 of 23 STEAM CRACKING OF STEAM NAPHTHA / GAS OIL NAPHTHA / ASSOCIATED GAS / GAS OIL STEAM Ethylene REACTOR Steam to Feed ratio 0. 25 to 0. 9 Temperatures 820 to 840oC Propyle ne Butylenes Fig 2. 2 OLEFINS AND PETROCHEMICAL INTERMEDIATES BASED SECONDARYCHEMICAL INDUSTRIES STAGE I THERMAL CRACKING OF NAPHTHA FOR THE PRODUCTION OF PRIMARY CHEMICALS (HIGHLY SOPHISTICATED, CAPITAL INTENSIVE PROCESS) ETHYLENE PROPYLENE BUTYLENES POLYETHYLENES LDPE,HDPE POLYPROPYLENE POLY VINYL CHLORIDE POLYSTYRENE SBR ETHYLENE GLYCOL POLY VINYL ACETATE STAGE II POLYMERIZATION OF PRIMARY CHEMICALS FOR THE PRODUCTION OF SECONDARY CHEMICALS AND POLYMERS. (MEDIUM TECHNOLOGY BASED PROCESSES). PLASTICS FILMS CONTAINERS PIPES,CABLES, BAGS SYNTHETIC RUBBER & LEATHER PRODUCTS TYRES TOYS ELECTRICAL EQUIPMENT RADIO, TV, AIR CONDITIONERS, REFRIGERATORS FURNITURE, TABLEWARE FORWARD CREATION BACKWARD INTEGRATIONASSOCIATED GASES OR NAPHTHA STAGE III FABRICATION OF SECONDARY CHEMICALS FOR THE PRODUCTION OF CONSUMER PRODUCTS. (LOW/MEDIUM TECHNOLOGY BASED PRODUCTS) Fig 2. 3 ________________________________________________________________________________________ Chapter – 2 Page 4 of 23 O ther Olefins Based SecondaryChemicals Naphtha Steam Cracker (Olefins) Ethylene & Derivatives Ethylene EDC Ethylene Glycol Ethylene Oxide HDPE LDPE LLDPE EPDM Ethanol Alpha Olefins Vinyl Acetate Ethyl Chloride / Ethyl Benzene Propylene & Derivates Propylene Acrylonitrile Cumene Polypropylene Acrylic Acid Butanol 2-Ethyl Hexanol Iso-Propanol NoneneDodecene Propylene Oxide Acetone Acrylic Fiber Butadiene & Derivatives Butadiene ABS Adiponitrile /HMDA Nitrile Rubber Poly-Butadiene Poly chloroprene SB Latex SB Rubber Fig- 2. 3(a) Aromatic Petrochemical Complex Naphtha and gas oil is also catalytically reformed at high temperatures in the presence of catalysts to yield aromatic intermediate chemicals, such as benzene, toluene and xylenes (Fig 2. 4). These are liquids at ordinary temperatures and pressures and can be easily transported to desired locations where they are used as raw materials in the production of a variety of secondary chemical products as shown in Fig. . 5. ______________ __________________________________________________________________________ Chapter – 2 Page 5 of 23 CATALYTIC REFORMING OF NAPHTHA CATALYTIC (AROMATIZATION REACTION) NAPHTHA / ASSOCIATED GAS / GAS OIL Benzene CATALYTIC REACTOR STEAM Toluene Xylenes Fig-2. 4 ` Aromatics Based Secondary Chemicals Naphtha Catalytic Reformer (Aromatics) Toluene & Derivatives Benzene TDI Caprolactam Benzoic Acid TNT Xylenes & Derivates Orthoxylene Paraxylene Metaxylene DMT TPA Bottle Resin Polyester Fiber Fiber Chip Film Resin Phthalic Anhydride PET Benzene & Derivatives Benzene ) Cumene ) Phenol ) Cyclo Hexane )Ethyl Benzene ) Adiplc Acid ) Alkyl Benzene ) Aniline ) Alkyl Phenol ) Chloro Benzene ) Maleic Anhydride ) Nylon Fiber/Resin ) Production of Secondary Chemicals Medium / High Technology Chemicals and Products Production of Primary/Intermediate Chemicals (Highly Sophisticated Capital Intensive) Fig 2. 5 ________________________________________________________________________________________ Chapter – 2 Page 6 of 23 2. 2 Natural Gas Based Chemicals Natural gas is a very valuable resource, not only for use as energy, but also for the production of chemicals. It has been used commercially as a fuel for hundreds of years.The production, processing and distribution of natural gas has become an important segment of the world economy and is a major factor in the production of chemicals in global markets. The composition of natural gas depends on its source. It predominantly consists of methane, but in many cases contains higher hydrocarbons such as ethane and propane. Natural gas processing plants are designed to produce certain valuable products over and above those needed to make the gas marketable. Plants are also designed to recover elemental sulphur which is the starting raw material for the production of many secondary chemicals.Natural gas has created multifarious opportunities and challenges as it is now utilized in the production of fertilizers and petrochemi cals, in addition to its earlier use as a source of energy. This is illustrated in Fig 2. 6. ________________________________________________________________________________________ Chapter – 2 Page 7 of 23 Household Gas Fig -2. 6 ________________________________________________________________________________________ Chapter – 2 Page 8 of 23 FIG-2. 7 ________________________________________________________________________________________ Chapter – 2 Page 9 of 23 2. 3Alternative Feedstocks for the Production of Commodity Chemicals The uncertainties about the peaking of available reserves of fossil fuels, and rising prices of petroleum and natural gas, have spurred the chemical industry to examine alternative feedstocks for the production of commodity chemicals. Over the last two decades alternatives to conventional petroleum and natural gas feedstocks have been developed. These feedstocks include coal based gasification and liquefaction processes; and renewable resources such as bio-mass, stranded natural gas from unconventional reserves, heavy oil from Tar sands or oil shale.These sources of alternative feedstocks are in the process of development for highest volume production of commodity chemicals in Europe and the US. The technology for their utilization is in the process of development, in order to make these processes more efficient and economically compatible with petroleum based technologies. The status of various available feedstocks and the technological development for their exploitation for the production of secondary chemicals is as follows: Coal Substantial world coal reserves make it an attractive alternative to natural gas and petroleum.The technologies for large scale processing of coal are at present available in South Africa and China. However, a major concern about the utilization of these technologies is the variability in feedstock composition and the presence of impurities which poison the catalysts used in the proce ssing of coal. Coal Gasification Commodity chemicals can be produced through the gasification of coal. Because of the large domestic reserves of coal in Pakistan, this feedstock option needs to be exploited. Coal gasification for application, including the production of chemical feedstocks, is already widely practiced worldwide.These plants generate feedstocks for chemical production, closely followed by the Fischer Tropsch process for the production of organic chemicals. ________________________________________________________________________________________ Chapter – 2 Page 10 of 23 The gasification process starts with the production of synthesis gas in a gasifier, followed by the production of a mixture of carbon oxides and hydrogen. Ammonia, methanol, alcohols and aldehydes are produced by Oxo Synthesis. The Fisher Tropsch process is used to produce a variety of secondary chemicals.Different coal types (lignite, bituminous, sub-bituminous) affect the efficiencies and econ omies of the gasification process, since gasification efficiencies are lower for sub-bituminous coals due to higher moisture and ash content. However, since essentially any organic material can be gasified, existing gasifier designs can be adopted to use different types of coal as gasifier feed. Coal Liquefaction Coal can also be liquefied directly, without going through a Syngas step. This process is called the â€Å"Coal to Liquid† or CTL process and is well proven.Liquefaction uses liquid distillation and hydrogenation, where hydrogen is added to coal and water slurry. The slurry increases the Hydrogen/Carbon (H/C) ratio to a crude oil level and removes impurities such as sulphur. Coal Liquefaction technology is of particular interest for the utilization of Thar Coal, which has a high moisture content. A full scale production facility is being built in China for the direct liquefaction of coal into transportation fuels to produce 50,000 bbl/day of fuel oil. A similar proje ct could be developed for Thar Coal with the participation of Chinese Process Licensors. Bio-RefineryA major thrust towards the development of renewable feedstocks as a resource for energy and secondary chemicals is by a process called bio-refining. Bio-refining feedstocks consist of crops residues; waste plants or animal material and recycled fibers; municipal sewage sludge; agricultural and forest residues; household waste; agro-feed effluents; and residues of paper and wood working industry. These plants absorb solar energy from the sun through photosynthesis, and the energy stored within it is recovered by bio-refining processes. ________________________________________________________________________________________Chapter – 2 Page 11 of 23 The bio-refining concept generally involves feeding bio-feedstocks into steam or catalyst crackers to produce chemicals. Some technologies are in the process of development for the processing of carbohydrates, oils, lignin and fuels. In addition to their utilization for energy production, some bio based chemicals that have potential for large scale manufacture include carboxylic acids and glycols. Other areas of development include fermentation of sugars, decomposition of cellulose, high temperature pyrolysis, and bio-refining of wood and waste materials.However widespread use of feedstocks will require sustained research and development(R&D) in a variety of fields such as plant science, microbiology, genomics and catalysis. In view of the impurities, variability of feedstock composition, distributed supply, scalability and pathways for the breakdown of cellulose, the development of process technology will have to be undertaken and / or adapted to local conditions by each country, in order to exploit the utilization of bio-mass feedstocks for economic advantage. Unconventional Natural GasMethane from anaerobic fermentation can be generated from animal manure and sewage treatment, as well as from landfills. The p otential for anaerobic fermentation as a source for useable methane, rather than a source of pollution, will require development work leading to improvements in process control, operating efficiencies and rate of digestion, targeting small scale technologies. Renewable energy sources are indigenous and can, therefore, contribute to reducing dependence on energy imports, such as crude oil, resulting in increasing security of supply as well as resources for the production of commodity chemicals.Developments in renewable energy resources can actively contribute to job creation, predominantly in small- and medium-sized industries which are so central to economic performance. The deployment of renewable resources can be a key feature in regional development, with the aim of achieving greater social and economic cohesion, largely for environmental reasons. ________________________________________________________________________________________ Chapter – 2 Page 12 of 23 2. 4. Feedst ocks Derived from Metallurgical Plants and Polymers, Materials Technology and Metallurgical ProcessesMaterials technology is one of the many areas targeted by the chemical industry. Materials play a critical role in the economic development and growth of chemical process industries. New materials technology is an essential part of the industry’s strategy for achieving its vision. Materials contribute a large amount to industry revenue, and represent a high growth potential for industry. Ferrous and non-ferrous metallurgical processes consisting of iron, steel, copper, aluminium, magnesium and associated alloys have been used traditionally as feedstocks for the development of secondary chemical industries.Tremendous advances in the twentieth century in the development of new synthetic materials have also fueled the growth of the chemical industry. Replacement of traditional materials with synthetic polymers and composite materials has resulted in products with lower weight, be tter energy efficiency, higher performance and durability, and increased design and manufacturing flexibility. Metallurgical Industry The traditional iron, steel and non-ferrous metallurgical industries produce valuable primary products which are important starting materials for the production of secondary chemical products.They are used by almost every manufacturing industry for the fabrication of capital plants and equipment; the manufacture of automobiles, railways, agricultural and construction equipment; and components and spare parts for operating plants in the chemical and allied industries. The iron and steel industry is classified into three important primary products according to the order of processing from iron ore to the finished products. The iron ore is calcined and mixed with limestone and coke and introduced into a Blast furnace. The preheated air is fed to the bottom of the furnace. The ore is reduced to iron to produce Pig iron. ___________________________________ ____________________________________________________ Chapter – 2 Page 13 of 23 Pig iron is refined by different processes to produce iron castings or billets, rolled wrought iron and rolled/forged steel by three different processes as illustrated in Fig 2. 8. Fig-2. 8 The primary products of the iron and steel industry, which consist of iron castings, rolled wrought iron, and rolled and forged steel, are the feedstock for a very large number of downstream secondary industries. ________________________________________________________________________________________Chapter – 2 Page 14 of 23 Non-Ferrous Metals Non-ferrous metals are produced through two basic operations. In the first operation, the ores are subjected to metallurgical processes to produce basic metals consisting of large blocs or bars. In the second operation, the metal is smelted and refined. The secondary smelting and refining of nonferrous metals lead to the production of aluminium, copper, lead, nickel , silver, gold, tin and zinc. These metals are used in wide variety of secondary chemical manufacturing industries, such as ammunition, beverage cans, coins, automobiles and household appliances.Copper possesses superior electrical conductivity, and is a strong, durable metal used in a variety of structural applications, as well as for power, lighting and communication transmissions. Domestically, the major markets for copper are construction, electronics, and industrial machinery and equipment. Aluminium, the most widely used nonferrous metal, possesses several positive attributes, such as a light weight, corrosion resistance, and high electrical and thermal conductivity, which makes the metal suitable for a variety of applications.Container and packaging manufacturers use aluminium, while other major enduse products include the transportation sector, the building and construction sector, and the electrical sector. Lead is primarily used for the manufacture of storage batteries, wh ich in turn are incorporated into automobile ignition starters, un-interruptible power supplies for computer systems, and standby power supplies for emergency lighting systems and telephones. Other market sectors that purchase lead include paint and glass manufacturers, and building products manufacturers.Zinc is primarily used to galvanize products found in the automobile, steel and construction industries, but a greater percentage of secondary zinc is used to produce brass and bronze, as well as assorted chemicals. Additional applications include the blending of zinc-based die-cast and brass alloys. ________________________________________________________________________________________ Chapter – 2 Page 15 of 23 Composite Materials Over the past few years, advances in the production of composite materials, including mixtures of polymers, fibers, metals and ceramics, have extended the range, performance and applications of these materials.These are made up of individual mate rials referred to as constituent materials. There are two categories of constituent materials designated as matrix and reinforcement. The matrix surrounds and supports the reinforcement materials by maintaining their relative positions. The reinforcements impart their special mechanical and physical properties to enhance the matrix properties. A synergism produces material properties unavailable from the individual constituent materials.A wide variety of matrix and strengthening materials allows the designer of the product or structure to choose any optimum combination. Most commercially produced composites use a polymer matrix material often called a resin solution. There are many different polymers available depending upon the starting ingredients. The most common are known as polyesters, vinyl ester, epoxy, phenol, poly amides, amongst others. The reinforcement materials are often fibers and fiber glass, but also commonly ground materials.The average composition in a product cont ains 60% resin and 40% fiber. Various process technologies consisting of vacuum moulding, pressure moulding, autoclave moulding and resin transfer moulding are employed in order to give the required properties and strength to the relevant final product. Composite materials have gained popularity in high performance products that need to be lightweight, yet strong enough to take harsh loading conditions. Examples of these include aerospace components, boat and scull hulls, and car bodies.The new Boeing 787 aircraft, including its wings and fuselage, is composed largely of composite materials. ________________________________________________________________________________________ Chapter – 2 Page 16 of 23 2. 5 Other Mineral Based Projects Consisting of Acid and Alkali Industries, Cement and Glass Plants Based on Limestone, Gypsum, Rock Salt, Sulphur and Silica The mineral potential of Pakistan, although considered excellent, is not adequately exploited as its contribution to G NP at present stands at only 2. 4%.The main sources of locally available feedstocks for the production of the acid and alkali industry (soda ash, sodium bicarbonate, caustic soda, chlorine), sulphur and other inorganic acids, glass and cement, consist of rocksalt, sulphur, limestone, gypsum and silica sand. The manufactured products are predominantly marketed for local use, although there are some exports to Afghanistan and the Central Asian states. In view of the long history of development of industries in this sector, the process technologies are well-known locally.However, the design, engineering and procurement of critical plant and equipment are predominantly carried out by foreign engineering companies. 2. 6. Agro Based Feedstocks Cotton and Other Natural Fibers Agriculture is the largest sector of the economy and is the source of livelihood of almost 45% of the total employed labour force in the country. Cotton is the most important non-food crop and feedstock for the produc tion of natural fiber for the manufacture of textile products. Cotton fiber is also blended with polyester and viscose fibers.The textile and clothing industry has been the main driver of Pakistani exports for the last sixty years, in terms of both foreign currency earnings and job creation. The textile industry flourished under official patronage, but lost its advantages in the post quota regime. Its share in exports has declined from 66% in 2005 to 53. 7% in the current 2008-09 financial year. The textile industry is based on relatively low to medium technology, but in spite of this Pakistan has spent US$7. 5 billion on the import of textile machinery over the past ten years (1999-2009).Pakistan did not make any effort to adopt ________________________________________________________________________________________ Chapter – 2 Page 17 of 23 imported technologies for the manufacture of textile machinery by reverse engineering. In view of these shortcomings, the textile indus try has continuously suffered productivity losses due to machinery breakdowns and its inability to cope with operational problems. Pakistan is now facing competition from China, India and Bangladesh, in view of their better quality products, higher productivity and other economic advantages.Sugarcane, Molasses, Power Alcohol and Associated Industries Sugarcane is an important cash crop and is a valuable feedstock for the production of sugar and other downstream industries, such as industrial alcohol, chip board and paper. Molasses is a by product of the sugar industry and is the starting raw material for the production of industrial alcohol, which is used as a source of energy for automobiles, as well as the production of organic chemicals, such as aldehydes, acetone, acetic acid, acetic anhydride, isophoron, citric acid, glycerol, yeast and many other derivatives for pharmaceutical and plastic industries.Fruit and Vegetables The various varieties of fruit produced in Pakistan consi st of citrus, mango, apples, banana, apricot, guava, grapes and tomatoes. Annual production is estimated at 5. 6 million tons per year. The fruit industry is very diversified and consist of juices, soups and sauces, baby food, bakery products, confectionary and tomato products. The technology for the processing of fruit is becoming more sophisticated because of the high demand for quality products. The industry is required to produce food products both economically and profitably, and this depends upon efficient processes.At the same time, these processes must handle the material in such a way that the final product is attractive to the consumer. The fruit industry and its downstream products have considerable export potential. ________________________________________________________________________________________ Chapter – 2 Page 18 of 23 Natural Dyes Vegetable dyes are eco-friendly and their use is increasing, especially for dyeing wool, carpets, silk and cotton. The commo n sources of vegetable dyes are parts of plants, such as leaves, flowers, fruit, seeds, barks, and the roots of dye yielding plants.The cultivation of certain trees also yield dye material. Therefore, the utilization of dye yielding plants and trees will boost the agro-based industry especially in rural areas, leading to rural development and employment creation. Pakistan imports vegetable dyes from India despite the fact that the raw materials for their production are available in Pakistan. Dyes and pigments constitute the largest segment of the industry, with the world’s present value estimated at about US$16 billion per year. Herbal Medicines and Associated productsThe Indian / Pakistani system of medicines–generally known as the Ayurvedic System of Medicine–is considered a perfect science of life which has evolved from wisdom, experience and logic. Based on scientific observations, it has its origin in the Vedas–the oldest recorded wisdom circa 6000 B C. Ayurvedic herbal medicines are considered ideal treatments, as they cure the diseases without causing any side effects. Herbal medicines and products now include medicines, health supplements, herbal beauty and toiletry products.Major developments in herbal medicines and beauty products are now taking place in China, South Korea, Canada and the US, in addition to India. It is estimated that the global market for herbal products now stands at US$62 billion per annum. Pakistan has a vast variety of flora and fauna especially in the northern areas, Azad Kashmir and the foothills of the Himalayas, which need to be explored for beneficial exploitation of these resources. ________________________________________________________________________________________Chapter – 2 Page 19 of 23 India has established a Technology Development Board which provides financial assistance to R&D establishments concerned with the development and commercialization of indigenous technology for herba l products for wider domestic applications. There is considerable potential for the development of this sector and collaboration with well known companies such as Hamdard and Qarshi can be sought for joint partnerships for the development of herbal projects. Oils and Fats IndustryConventional oils derived from cotton seed, rapeseed and corn are now processed and utilized for the production of bio-fuels in the US and other countries. An alternative source of vegetable oil called Jetropha is now widely cultivated in South and Southeast Asia, especially in Japan, Thailand, China and India. It is a woody and hardy plant, and grows to a height of 3-8 meters. It grows quickly even in poor soils and is not affected by drought and disease. The Macro engineering society of Pakistan, in collaboration with Big Bird (Pvt. ) Ltd. as initiated a project for the plantation of Jatropha in Layyah, West Punjab. The Jetropha oil seed contains about 40% of vegetable fat/oil and some toxic materials, wh ich makes it inedible for human and livestock consumption. The process technology for the conversion of Jetropha oil into bio-fuels is well proven and can be adopted in Pakistan. 2. 7 Sources of Raw Materials and Process Technologies for Chemical Industry Development in Pakistan The sector wise classification of chemical industry in Pakistan is as follows: PRIMARY INDUSTRIES SOURCES OF RAW MATERIAL ) Petroleum Refineries ii) Fertilizers Imported Crude Oil Local Natural Gas, iii) iv) v) vi) Local Materials, Limestone, Clay Imported/Local Ore Locally available ore Local Agricultural Raw Material Cement Iron & Steel Copper Textiles ________________________________________________________

Banana Peel as Shoe Polish Essay

INTRODUCTION Shoe polish is a product used to shine, polish, and protect leather footwear. Polishing shoes will increase their life span. In present times, everybody always use shoe polishers for their shoes to look presentable and fabulous to walk with attractive thus boosting more confidence to its beholder. But no everyone knows that traditional shoe polish which are available in market made of harmful chemical and synthetic ingredients which has a bad door. Since it uses petroleum as it’s basis it is also flammable which makes it dangerous to human health and may cause some hazards like fires. The banana peel is known for its antifungal and antibiotic properties. The peel is also loaded with a lot of Vitamins, minerals and fiber Many articles and pamphlets say that banana peel is even effective in shining and smoothening surfaces like shoes made up of leather. There are many advocacies promoting environment preservation and restoration. This may help in these advocacies. Because the main ingredient was just banana peel so that will lessen the production of biodegradable garbage.And also,the product will cost lesser than those of commercial because only the tools and some additives are need to be bought, so we can assume convenience to those who will buy our product. It may also emit the old tradition of just throwing banana peel instead they can collect it and donate for us to transform it into a more useful and effective product which happen to be the banana floor polisher. Main Problem How feasible is the production of Shinana in terms of management, operation, technical, and socio-economic aspects? Specifically, this proposal will answer the following questions: 1. Management Aspects a) What is the name of the company? b) What is the Vision? c) What is the Mssion? d) What form of ownership is applied? e) What are the advantages of that form of business? f) What are the organizational policies or procedures? 2. Marketing Aspects a) What is the product description? b) Who are the target markets? c) How will the product be priced? d) How much is the expected return of investment? e) Are there freebies or discounts offered? f) Who are the business competitors? g) What marketing strategies are applicable? h) What are the Strengths, Weaknesses, Opportunities, and Threats? 3. Operational & Technical Aspects a) What are the uses/ functions/descriptions of the material or equipment? b) What are the steps in coming up with the product? 4. Socio-Economic Aspects a) How can the product help the people? b) How can it help the society? c) How will the government be benefited? CHAPTER 2 MANAGEMENT ASPECT This chapter deals with the five different processes of management which are planning,organizing,staffing, directing, and controlling. Shinana, a word combination of the first three letters of the word SHINE and the last four letters of the word BANANA, was chosen as the company name because obviously, the name itself signifies â€Å"Making things shine through banana.As envisioned by the entrepreneur, Shinana, a product for shoe beautification will make everyone’s shoes shine with the natural shoe-shining quality banana peelings possess. The entrepreneur had come up with product because she had been exposed to Science Congress/Exhibits during her highschool days in UNIDA Christian Colleges.The said events shows the school’s students impressive innovative products, discovery, and research studies. Luckily, the entrepreneur had the chance to be one of the participants of the said Congress.Banana peel as shoe shine concept emerged from the said event. Since banana peelings are only thrown-out after its fruit has been taken off,our company thougths that we can help the society through abolishing the traditional manner of disposing its peelings and process it to a more useful  form which is SHINANA. VISION The leading supplier in shoe beautification industry in the Philippines acknowledge for the creation of innovative shoe shine products that complements not only consumer needs and wants but also the environment’s needfor careful preservation and protection. MISSION Our enterprise shall provide efficient, eco-friendly, and quality shoe shine products locally through efficient use and systematic production of shoe shine products with banana peelings as its main raw material. FORM OF OWNERSHIP Shinana is a sole proprietorship form of business. The owner is A-Zmyn T. Honrado.Once it makes name in the industry, it can expand its product line(will be able to offer variety of shoeshine products ),can develop new products like floor wax, sprays,disinfectants,varnish,colored wax polish made from banana peelings and other organic materials. ADVANTAGES OF SOLE OWNERSHIP Advantages of Sole Proprietor Form of Business: The formation of sole proprietorship business is very easy and simple. The entrepreneur owns all and risks all. The entire profit goes to his pocket. This motivates the proprietor to put his heart and soul in the business to earn more profit. Thus, the direct relationship between effort and reward motivates the entrepreneur to manage the business more efficiently and effectively. The entrepreneur takes all decisions affecting the business.This results in better control of the business and ultimately leads to efficiency. Thus, the entrepreneur as sole proprietor can arrive at quick decisions concerning the business by which he can take the advantage of any better opportunities. Each and every aspect of the business is looked after by the proprietor and the business secrets are known to him only.Thus, the maintenance of adequate secrecy leaves no scope to his competitors to be aware of the business secrets. The sole proprietorship business is undertaken on a small scale. If any change is required in business  operations, it is easy and quick to bring the changes. The cost of formation of a sole proprietorship is the minimum because no cost is involved in its formation. The management of the business is also inexpensive as no specialists are normally appointed in various functional areas of the business. The dissolution of the sole proprietorship is also very easy. Since the proprietor is the supreme authority and no regulations are applicable for closure of the business he can dissolve his business any time he likes. ORGANIZATIONAL POLICIES AND PROCEDURES All individuals pass a verification procedure, including the completion of an â€Å"Employment Verification Form†, before they are permitted to work. Harassment in employment, including sexual, racial, and ethnic harassment, as well as any other harassment forbidden by law, is strictly prohibited by the Company The Company does not discriminate, and does not permit its employees to discriminate against other employees or applicants because of race,color,religion, sex, etc. Employees are prohibited from engaging in web logging or â€Å"blogging† during working time or while using Company-equipment Periodic evaluations may be made to determine your individual progress, training needs, and potential pay increases. Pay increases are not automatic and depend on factors such as the employee’s demonstrated job proficiency and the Company’s ability to pay. When present employees are qualified and as justified by our Company needs and growth, the Company offers as many opportunities for promotions as possible. Plant/Office Personnel normally scheduled 8 hours per shift, 40 hours per week. Habitual or excessive absenteeism and tardiness cannot be tolerated. Employees are required to record their own time in and out Employees shall clock in and out on time, but not earlier/later than 4 minutes before their scheduled starting work time . Safety is everybody’s business Head Protection: Employees exposed to flying or falling objects and/or electrical shock and burns shall be safeguarded by means of approved head protection. Eye and Face Protection: Employees working in locations where eye hazards due to flying particles, hazardous substances or injurious light  rays are inherent in the work or environment shall be safeguarded by and shall use employer-provided face or eye protection with Suitable screens or shields isolating the hazardous exposure shall safeguard nearby employees. The wearing of contact lens is prohibited in working environments having harmful exposure to materials or light flashes. Body Protection: Body protection from hazardous or flying substances shall be provided by clothing appropriate for the work being done. Hand Protection: Gloves may be required for employees whose work exposes hands to hazardous substances, cuts or burns. Foot Protection: Appropriate foot protection shall be required for employees who are exposed to foot injuries from hot, corrosive, poisonous substances, falling objects, crushing or penetrating actions, which may cause injuries. Ear Protection: Ear Protection must be worn in Production areas. For safety reasons, smoking of tobacco products and drinking alcohol beverages is not permitted. Floors shall be kept clean and dry. Floors and platforms shall be kept free of projections, obstructions, holes and loose All control buttons and switches shall be properly identified as to their function and purpose. All shall Return tools and equipment to proper storage place after use. No jewelry, long hair or loose clothing is allowed around any machinery while operating. MANAGEMENT & PERSONNEL 1.Marketing head/Sole owner a.Creates promotional strategy for the products demandability. b. Sees if the product meet the customer’s need. c.Formulates the raw material combination through extensive researches d.Sees if the company is profitable or not using accounting principles 2.Production Manager a. Supervises all the production staffs b.Creates weekly reports to be submitted to the marketing head regarding the developments in production process. c.Schedules his/her subordinates break/meal time. d.Controls the quality of the finished product before proceeding to the packaging process. 3.Production staff a. Scrapes the white part of banana peel b.Mixes all the ingredients c.Operates on plastic squeezer equipment to pack the finished products. CHAPTER 3 MARKETING ASPECT This chapter involves understanding the target market,their likes and dislikes, the marketing strategies implemented and how the customers evaluated the product. PRODUCT DESCRIPTION Shinana is a product used to shine, polish, and protect leather footwear thereby extending it’s life. It comes in various forms, including wax, paste, cream, and liquid, and can be applied in many different ways. TARGET MARKETS Shinana’s target markets are all who have leather shoes.Be it a professional,students,businesswoman/man,teacher, mother ,father, sister, brother.In short, everyone who wants to look presentable by polishing their shoes. FREEBIES AND DISCOUNTS 10% Discount are available to those who will buy in boxes which contains 10 pcs of Shinana.Thus , from the original price of Php 50.00, the buyer can avail it for only Php45.00 instead.The buyer can save Php 5.00 each box. Similarly, those who will buy 1000 pcs, can save up to Php 500.00.From the original price of Php 5000.00, buyers can avail it for only Php4500.00. BUSINESS COMPETITORS Obviously, the number and only one competitor is KIWI, owned by Sara Lee.Prior to the introduction of the Company’s Product Shinana.KIWI monopolized the shoe beautification industry.Since Kiwi have been operating for more than century. They run print advertisements in a variety of national magazines. The Kiwi ads are printed in bright red, matching the color in the background of the brand’s logo. The Kiwi campaign is running in magazines like Black Enterprise, Car andDriver, Cargo, Ebony, Esquire, Men’s Fitness, National Geographic etc..Most of the new product launches of Kiwi was in line with the changing consumer preferences. MARKETING STRATEGIES In order for Shinana to be known to the public, the company will run printed advertisements such as flyers, posters.The company will also make online pages on websites like Facebook, Twitter,and Multiply that will entertain prospect/future customers’ inquiry about such product. Please see  attachments in the Appendix. SWOT ANALYSIS STRENGTHS Shoe polish usually is a mixture of natural and synthetic materials. Cosmetic shoe polish of various dangerous ingredients. These chemicals can be easily absorbed through the skin causing potential harm to the skin and other organs of the body . It is essential that in using shoe polish, one must wear gloves when doing so, one must not drink alcohol while polishing shoes (it can increase the effects of certain chemicals), and must keep all shoe polish out of reach of children and animal companions. If used, shoe polish should be used in a well-ventilated area, and all of the product shoud be used, with any residual being discarded or given to someone who will use it. When disposed, shoe polish needs to be handled as a hazardous househould substance. Rags or clothes used that come in contact with the shoe polish should also be immediately discarded. While some shoe polished claim to be non-toxic, most do not list their ingredients, so it is impossible to know that they are truly free of dangerous chemicals. But now,through the introduction of Shinana, an eco-friendly shoe polish, Consumers can minimize the health hazards brought by using traditional polishers. The ingredients of Shinana contains no harmful chemicals thereby not endangering someone’s health. Because it doesn’t contains expensive harmful chemicals and only need banana peel that are only thrown out after the fruit has been taken off, its price is cheaper than that of the traditional shoe polish.Shinana, as have said earlier, is an eco-friendly product for it requires no proper disposal since it is all natural. WEAKNESSES Because Shinana is all-natural, it perishes faster than that of the traditional shoe polish. Salt is the only preservative Shinana has, and according to tests,a bottle of Shinana last only for one and a half month that rendered our product,in comparison to traditional old polish , less convenient to its users. Shinana was only owned by A-Zmyn T. Honrado, a student, who has still no enough capital for the regularization of conducting business.Thus, Shinana is short-lived business on the grounds of economic constraint.And also, the owner still lack skills, profession,talent  needed to pursue the business since she was only a second year student taking Business Management. OPPORTUNITIES Banana is very much common in the Philippines. It is one of the oldest cultivated plants and is grown in at least 107 countries, primarily for their fruit, and to a lesser extent to their peelings .Banana peelings cost nothing(see product pricing), like in the entrepreneur’s case. Many banana cue,turon, saging con yelo, halo-halo prevailed the market.The owner sees that peeling are only throwned after the fruit has been taken off for we all know that many of us don’t prefer to eat banana peelings aside from its fruit,though the former is edible. This poses a great opportunity for the entrepreneur to make efficient use of that disposed banana peelings that’s why she came up with the product. THREATS Due to some innovation of ideas, leather shoes are now being replaced by plastic shoes that is relatively cheaper than that of the leather shoes. Many prefer plastic shoes since it is durable even the it is raining.And because many prefer plastic over leather shoes, shoe polish demandability decreases.Luckily,the company is on its way in formulating shoe polish product for plastic shoe. Another is that, the company has no definite suppliers,the number of products that can be produced is dependent on the number of banana peelings collected from anywhere.There’s no control over the resources since they are only donated,not bought CHAPTER4 OPERATIONAL AND TECHNICAL ASPECT This includes all the factors of the production and the processes MATERIALS AND EQUIPMENT MATERIALS: 100 g banana peelings1tbspoon rock salt 2 g black dye coloring powder TOOLS Picture of Tools Description/Function Mortar and pestle Mortar is a round bottom thick walled container in which a solid material may be grinned while pestle is a long cylindrical wide based rod used for grinding in mortar Stirring rod A stirring rod or stir rod is a piece of laboratory equipment usually made of solid glass, about the thickness and slightly longer than a drinking straw, with rounded ends that is used to mix chemicals and liquids for laboratory purposes. Plastic cup A plastic cup is a disposable cup made out of plastic. It is most commonly used as a container to hold liquids. Plastic spoon A plastic utensil consisting of a small, shallow bowl on a handle, used in preparing, serving, or eating food. Steel Fork A metal utensil with two or more prongs, used for eating or serving food. EQUIPMENT Picture of Equipment Description/Function Handy plastic sealer A 1-foot long electrical equipment that uses principle of pressure in order to seal plactics. OPERATIONAL PROCEDURE: 1. Scrape the white part of the banana peel with the use of steel fork. 2. Mash the peeling with mortar and pestle. 3. Pour in the salt and mix it with the peelings. 4. Pour in the black dye powder and mix it with the peeling-salt mixture. 5. Put the finished product in its packaging. CHAPTER 5 SOCIO-ECONOMIC ASPECT SHINANA AND THE PEOPLE According to some news,unemployment and underemployment rate in the Phillipines continue to increase yearly.There are many who have the skills,talents,profession but there’s no position to fill with.The establishment of the company will provide employment to many if given the chance to expand its operation. And also, Shinana helped the people by providing their needs for shoe beautification needs in an eco-friendly and natural way. It will also provide for people’s demand for inexpensive goods for,the product will cost lesser than those of commercial because only the tools and some additives are need to be bought, so we can assume convenience to those who will buy the company’s product. Shinana also may help those who ventured in banana fruit businesses,since the company will be the one responsible for the disposal of the peelings.So we can assume convenience to them particularly in disposing these useful peelings. SHINANA AND THE SOCIETY We all know that our country is in economic crisis.Resources are scarce yet our needs and wants are umlimited.so mean to say, we should make out of everything.Shinana can help the society by giving some concrete response to many advocacies promoting environment preservation and restoration.Shinana may help in these advocacies because the main ingredient was just banana peel so that will lessen the production of biodegradable garbage. It may also emit the old tradition of just throwing banana peel instead they can collect it and donate to the company for the company to transform it into a more useful and effective product which happen to be the banana shoe polisher. The Department of Health, issues emergency instructions regarding the INHALATION,EYE CONTACT,SKIN CONTACT of shoe polish. Another is that,In Los Angeles and most other places, shoe polish is disallowed in the regular trash. It must be disposed of as a hazardous material like mercury, because it often contains materials like naphtha and turpentine. Shinana can help the society, particularly by meeting the needs for a chemical-free shoe  polish as replacement to the traditional shoe polish which is full of dangerous chemicals.Shinana gave way to reusing the peel to polish the shoe through oils and the potassium present in banana polish that can preserve ones shoes. After the oils and potassium has been scraped from the peel,the company will compost the peel. Through Shinana, we can have polished shoes without damaging the society’s well-beingand without endangering the environment, leaving behind zero packaging waste. SHINANA AND THE GOVERNMENT Government promotes business activity in the Philippines for it will have a drastic effect in the economic health of the country. The more the business activities the faster is the circulation of the Philippine Currency.The more the business activity, spending prevails over saving.Shinana can help the government by conforming to these economic programs initiated by the government. Another is that, our company, if will be given a chance to expand its operations will be able to export Shinana that will eventually become not only as a source of pride for the Filipinos but will also help in increasing the country’s GDP or Gross Domestic product which is one of the measure of our country’s economic performance. Lastly, government will be benefited because businesses are required to register the business.They collect such registration fees, licences fees.Another is that, because of the inherent power of the state, the company are required to pay taxes to the government that are used for the government to defray their necessary expenses.