Project Task-List Essay Example | Topics and Well Written Essays - 500 words - 2

Project Task-List - Essay Example Additionally, the project aims at the creation of a supportive environment and relevant training materials for the training to be conducted. The scope of the project is limited to the organization of the meeting as well as the arrangement and preparation for the travel and accommodation of the people to attend from the various regions. Of course, this involves the process of sourcing for the necessary resources to facilitate the training. The preparation for the meeting requires the decision on the offsite venue and the accessible locations for accommodating the people attending the meeting. The tasks involved in the project are broken down into subtasks in a work breakdown structure to integrate the timing of the project tasks and the available resources. This is shown in the chart presented in table 1 below. Most of the resources in this project are in monetary terms. With the exception of the stationery and the public address system, all other resources required for project demands availability of funds. The approximated values of find requirement are presented in the work breakdown structure in table 1 above. The deliverables required out of the project include a sound training plan for the offsite workshop, indicated or measured by the number of topics prepared and the marks scored by the people attending the meeting in the evaluation. The second deliverable is a report of attendance showing the number of people who attended the training, the accommodations available and the utilized facilities. The final deliverable expected out of this project is the summary of the project plan, showing a descriptive statistics of the resources required, time consumption and starting date of every

Event Essay Example | Topics and Well Written Essays - 500 words - 1

Event - Essay Example The event began with a salutation from our group leader followed by a few welcoming remarks and an introduction of the speaker as well as the members present and the purpose of the events. Just from this introduction I learnt the importance having an organisation of order of doing things and pulling the attention of participants in ensuring the success of any event. The speaker of the day took up from the introductions and went straight to the main objective. He described to us his life from childhood, what he has been thorough and the candid sacrifices and steps he has had to make while eyes remained set on the object of achieving success. According to the speaker ownership is a critical factor of success be in general life, academics or entrepreneurship. He emphasised the importance of persons taking the full responsibility of their life. I learnt that everything we do must be done for a purpose and in order to succeed we must always be willing to pay the price of our dreams. Staying focussed and becoming a subject matter expert in the field of interest are two other essential elements of success. The speaker also spoke about having a game plan for attaining personal or organisational goals, never giving up and being timely as crucial elements of success. In my reflection on the event therefore I think success is largely out of personal efforts and not the support of others. Even to be supported one must put an effort in winning this support. There will always be challenges in everything we do but the secret is to stay focussed and objective. This calls an understanding our purposes and goals as well as the effects of our actions to others. Being decisive and ethical in our decisions can really help us win the support of others both in life, business and as leaders and once there is the support then people share common visions and goals of success. This I think will be

Types Of Cogeneration System

Types Of Cogeneration System Cogeneration which is also known as combined heat and power, can be described as two different forms of energy being generated from one single energy source. These two different forms of energy are usually thermal and mechanical energy. These two types of energy are then used for different functions. The mechanical energy is usually used to produce electricity through an alternator, or else to work rotating equipment such as compressors, motors or pumps. Thermal energy on the other hand can be used for the production of hot water, steam, hot air for dryers or also another typical use is for chilled water for process cooling. The main advantage of cogeneration is the overall efficiency of energy, which in some cases can be as high as 85 per cent. Another advantage of cogeneration is also the fact that it helps reduce the emissions of greenhouse gases and pollutants. Therefore, cogeneration is basically the use of a heat engine or else an entire power station to generate both electrici ty and heat simultaneously. A fact is that all power plants emit a considerable amount of heat during the process of generating electricity. Therefore, by using this fact, cogeneration is used to capture and use some, or even in some cases all, of this emitted heat for heating purposes. Types of cogeneration systems These days, a number of different cogeneration systems are used, namely the following: Steam Turbine Cogeneration System Internal Combustion Engine Cogeneration System Gas Turbine Cogeneration System Steam Turbine Cogeneration System Two different types of cogeneration systems are widely used, which are: The backpressure steam turbine The extraction condensing type steam turbine One would have to make a distinct choice between the two. This choice depends on a number of factors, which include the quantities of power and heat, economic factors, as well as the quality of heat. Also, another type of steam turbine cogeneration system is the extraction back pressure turbine which is normally used where the end result needed in thermal energy at two different temperature levels. On the other hand, the condensing type steam turbines are usually used when the heat rejected from a process will be finally used to generate electricity. So why use steam turbines and not any other type of prime mover? This would give the user an option of using a large variety of conventional and alternate types of fuel, such as biomass, fuel oil, natural gas, as well as coal. In order to optimize heat supply, the power generation efficiency of the cycle in some cases may not be as good. Steam turbines are therefore mostly used in cases where the demand is greater than 1MW up to hundreds of MW. Therefore, due to the inertia in the system, steam turbines are not suitable for areas with intermittent demand. Internal Combustion Engine Cogeneration system When comparing to other cogeneration systems, this system has a higher power generation efficiency. The two sources of heat for recovery are the exhaust gas at high temperature as well as the engine jacket cooling water at a low temperature. This type of system is more widely used in areas and facilities which consume a small amount of energy because heat recovery is efficient for smaller systems. Therefore it is widely used in facilities which have a greater need for electricity than thermal energy and also in places where the quality of heat required is not high. Even though the most common type of fuel used is diesel, this type of system can also operate with natural gas or heavy fuel oil. Another fact about this type of system is that, unlike gas turbines, it is not sensitive to changes in ambient temperature, therefore this makes it an ideal machine to use for intermittent operation. Gas Turbine Cogeneration Systems Gas turbine cogeneration systems can be used to generate all or in some cases part of the actual requirement of energy needed by the plant. In this type of system, the energy released at high temperature through exhaust can be recovered and used for certain applications of heating and cooling. Even though the most common means of fuel used is natural gas, in some cases other fuels like light fuel oil and diesel are also used in such a system. The range of gas turbines usually varies between a few MW to 100MW. Due to certain factors such as a greater availability of natural gas, a big reduction in installation costs, greater environmental performance, as well as a fast and large progress in technology, gas turbine cogeneration systems are the best developed systems in recent years. The following are some advantages of using a gas turbine cogeneration system: Gas turbines have a short start up time Gas turbines provide flexibility of intermittent operation At high temperatures, more heat can recovered Also, in case of the heat output being less than what is required, and in order to ensure that the thermal output efficiency is kept high, natural gas is used by mixing additional fuel to the exhaust gas. In the case of more power being required at the site, it is also possible to use what is called a combined cycle, which entails a combination of both steam turbine and gas turbine cogeneration. The steam which is being generated from the exhaust gas of the gas turbine is passed through either a backpressure steam turbine or an extraction condensing type steam turbine, which in turn will generate more power. Also, the exhaust from the steam turbine will also provide an amount of required thermal energy. Classification of system How does one classify a cogeneration system? These systems are usually classified according to the sequence of energy use as well as the operating procedure used. Therefore, a cogeneration system can usually be classified as either one of the following: A topping cycle A bottoming cycle The system is known as a topping cycle when the fuel supplied is first used to produce power, and then later in the process to produce thermal energy. The thermal energy in the system is used to satisfy process heat or other thermal requirements. Topping cycle cogeneration is the most widely used type and is nowadays the most popular type of cogeneration system. On the other hand, in a bottoming cycle the primary fuel is used to produce thermal energy at a high temperature. The heat rejected in the process is then further used to generate power through a recovery boiler as well as a turbine generator. Nowadays, bottoming cycles are widely used for manufacturing processes that require heat at high temperatures in furnaces, and also reject heat as very high temperatures. Even though they are used in the list mentioned below, bottoming cycle plants are less common and not used as much as topping cycle plants. A bottoming cycle is used in the following types of plants: Cement industry Steel industry Ceramic industry Gas and petrochemical industry Topping Cycle Cogeneration Systems Combined Cycle http://htmlimg1.scribdassets.com/73nqb7y9fk14zby9/images/6-c5da667d2f.jpg Extract from http://www.scribd.com/doc/65871557/Cogeneration This type of system includes a gas turbine or diesel engine which produces electrical or mechanical power followed by a heat recovery system/boiler which is used to generate steam and drive a secondary steam turbine. Steam Turbine http://htmlimg1.scribdassets.com/73nqb7y9fk14zby9/images/6-c5da667d2f.jpg Extract from http://www.scribd.com/doc/65871557/Cogeneration This type of system generates electrical power as well as process steam by burning fuel to produce high pressure steam, which is then passed through a steam turbine to produce the power needed, as well as using the exhaust from the turbine as low pressure process steam. Internal Combustion Engine http://htmlimg1.scribdassets.com/73nqb7y9fk14zby9/images/6-c5da667d2f.jpg Extract from http://www.scribd.com/doc/65871557/Cogeneration This type of system includes heat recovery from an engine exhaust and jacket cooling system flowing to a heat recovery boiler, in which it is converted to process steam or hot water for further use. Gas Turbine http://htmlimg1.scribdassets.com/73nqb7y9fk14zby9/images/6-c5da667d2f.jpg Extract from http://www.scribd.com/doc/65871557/Cogeneration This type of system is known as a gas turbine topping system. A natural gas turbine drives a generator to produce electricity. The exhaust from the turbine is passed through a heat recovery boiler which is used to generate process steam as well as process heat. Bottoming Cycle System http://gotoknow.org/file/khunchailek/topping.gif Extract from http://www.gotoknow.org/blogs/posts/183558 In this type of system, fuel is burnt in a furnace to produce synthetic rutile, which is a mineral. The furnace produces waste gases which in turn are used in a boiler to generate steam. This steam is then used to drive a turbine to produce electricity through a generator. Selection of cogeneration system The following factors are taken into consideration when trying to select what type of cogeneration system should be used: Base electrical load matching Base thermal load matching Electrical load matching Thermal load matching Heat to power ratio The quality of thermal energy needed Load patterns Fuels available Trigeneration Trigeneration is known as the process of generating three different types of energy in a combined manner. These three different types of energy are electricity, heat and cooling. All these are simultaneously produced from a fuel source referred to as combined heat power and cooling. Therefore, in other words, trigeneration takes the process of cogeneration of heat and electricity to another level, with the utilization of wasteheat for purposes of cooling with the use of an absorption chiller. A trigeneration system is basically the integration of two types of technology, namely the cogeneration system as well as cooling technology which is done through compression or absorption systems. As mentioned earlier in the document, the two most widely used types of cogeneration are through gas reciprocating engines and combustion engines. Though, fuel cells are also being used in the integration of trigeneration. Natural gas, due to being reliable, having low environmental effects, having low maintenance costs, as well as being efficient, is currently the best fuel to use for trigeneration systems. It is also widely used due to the fact that it burns so efficiently in the combustion chamber ensuring lower emissions of pollutants whn compared to heavier fuels. As natural gas consists mainly of methane, it leads to lower emissions per unit of energy stored, as methane is a gas which consists of a very important characteristic, it has a high hydrogen to carbon ratio. According to the U.S. Department of  Energy in the year 2009, 2.5 billion tons of CO2 were emitted by power plants in the U.S., which correspond to 576g of CO2 per kWh.  [1]  Therefore by using trigeneration, companies and plants worldwide can have a major impact in reducing the amount of pollutants emitted. Trigeneration is considered a new type and way of generating power, which is becoming even more common in a number of countries which have a warm climate. This is due to the fact that in these countries the heating required is only needed in the winter season. Therefore a demand of electrical power, cooling as well as heating is needed in a number of different entities, such as: Universities Gyms Shopping malls Hospitals Public Buildings Manufacturing facilities Data centers A trigeneration plant is extremely similar to a cogeneration plant, the only difference being the addition of an absorption chiller, which is used to produce a cold flow using the heat recovered from the hot exhaust gases. Absorption chillers Absorption coolers are used to provide cooling using a liquid refrigerant and a heat source. By using heat, usually heat recovered from hot flue gases, absorption chillers provide cooling to buildings. The main advantages of using absorption chillers are that they use much less energy than conventional equipment as well as cooling plants and buildings without emitting harmful pollutants. The main difference between conventional electric chillers and absorption chillers is that whilst conventional electric chillers use mechanical energy in a vapor compression process to provide refrigeration, absorption chillers on the other hand use heat energy. Absorption chillers can be powered by waste heat, steam as well as natural gas. Therefore, an absorption chiller transfers thermal energy through a refrigerant from the heat source to the heat sink. Absorption systems are widely used in cooling, heating and power systems. When used with a micro turbine and engine driven generator, absorption chillers can use the waste from these components and use it to generate power, whilst also producing cooling for space conditioning. Absorption chillers therefore shift cooling in a building from an electric load to a thermal load. Different types of absorption chillers are as follows: Direct fired Indirect fired Single effect Double effect Triple effect Trigeneration is therefore a very attractive use in certain situations where all three (power, heating, cooling) needs are a must. A typical example is in production processes which demand cooling requirements. Therefore it is widely used in areas where electricity, heating as well as cooling are needed. It is important to realise that cogeneration was used in some of the earliest installations of electrical generation. Industries which generated their own power used to commonly use exhaust steam for process heating. Hotels, stores as well as large offices generated their own power and also heated up the building using waste steam. Cogeneration is still very common in certain industries, namely pulp and paper mills, chemical plants as well as refineries. In the  United States,  Con Edison  distributes 66 billion kilograms of 180  Ãƒâ€šÃ‚ °C steam each year through its seven cogeneration plants to 100,000 buildings in  Manhattan, the biggest steam district in the United States. The peak delivery is 10 million pounds per hour.  [2]   How does the New York steam system work? This system is a district heating system which uses steam from steam generating stations and is distributed under the streets of Manhattan. This steam is used to either heat, cool or supply power to a number of businesses as well as apartments and other types of buildings. In my opinion this is a great initiative and way of reducing the emission of pollutants as well as increasing the efficiency of fuel usage. Con Edison is also using trigeneration for cooling in the summer months through the use of absorption chillers, a system which further increases energy and pollution savings, whilst also reducing peak electrical loads.

Shakespeares Sonnet 19 :: essays research papers

Shakespeare's Sonnet 19 In his Sonnet 19, Shakespeare presents the timeless theme of Time's mutability. As the lover apostrophizes Time, one might expect him to address "old Time" as inconstant, for such an epithet implies time's changeability. But inconstant also suggests capricious, and the lover finds time more grave than whimsical in its alterations. With the epithet "devouring" he addresses a greedy, ravenous hunger, a Time that is wastefully destructive. Conceding to Time its wrongs, the lover at first appears to encourage Time to satisfy its insatiable appetite. Indeed, he familiarly addresses Time as "thou" as he commands it harshely to "blunt, n "make the earth devour, n "pLuck," and "burn." Not onLy are the verbs "blunt,n npluck," and "burn" linked by assonance, but also by their plosive initial consonants, so that the Lover's orders sound off Time's destructiveness as well. Each line offers a different image of Time at work: on the lion, the earth, the tiger, the phoenix-bird. Time is indiscriminate in its devouring. In the second quatrain, the lover grants to Time its own will: "And do whate'er thou wilt, swift-footed Time," acknowLedging priorly that in its fleet passage Time does "Make glad and sorry seasons. n For the first time one sees Time in other than a destructive capacity--in its cycLical change of seasons, some Time does "make glad" with blooming sweets. So the lover changes his epithet from devouring to swift-footed, certainly more neutral in tone. For now the lover makes his most assertive command: "But I forbid thee one most heinous crime. n The final quatrain finds the lover ordering Time to stay its antic "antique pen" from aging or marring his love. It is a heinous crime to carve and draw lines on youth and beauty. ere the Lover no Longer speaks with forceful pLosives; his speech, for all the appearance of imperative command, sounds more

Gothic Themes in Edgar Allen Poe’s “the tell-tale Heart” Essay

In â€Å"The Tell-Tale Heart,† Edgar Allan Poe revolves the story around a raving individual and the object in which he obsesses over. This theme of insanity is progressed throughout the entire story by Poe’s style of gothic writing. Gothic-style writing is defined by using these elements: abnormal psychological behavior, creating a gloomy or threatening atmosphere, connections between the setting and its characters’ thought processes or behavior, and supernatural components. Poe’s usage of these gothic elements builds up the central theme in the â€Å"The Tell-Tale Heart.† Poe’s major element of gothic literature, which establishes the main theme of insanity, is the use of abnormal psychological behavior. The narrator proves his insanity at the very beginning by ranting about his nervousness and states his fear that the reader will assume he is mad, â€Å"How, then, am I mad? Hearken! And observe how healthily–how calmly I can tell you the whole story,† (The Gold-Bug and other tales*, pg. 74). The mere fact that he is afraid of being thought of as a madman does not prove that his psyche is abnormal. Poe manifests the narrator’s insanity by having him state that his preconceived murder has no purpose, â€Å"It haunted me day and night. Object there was none. Passion there was none,† (GB, pg. 74). The reader can see the narrator’s madness again after he divulges his plan to the reader, stating, â€Å"Ha!–would a madman have been so wise as this?† (GB, pg. 74). Eventually the narrator’s mind g ets the best of him and he kills the old man, but afterwards, his attitude is down right odd and sadistic, â€Å"In an instant I dragged him to the floor, and pulled the heavy bed over him. I smiled gaily, to find the deed so far done,† (GB, pg. 76). By having the narrator smile after killing the old man, Poe creates a picture of a raving lunatic in the readers’ mind. As the plot heightens, so does the narrator’s dementia. Police officers arrive at the narrator’s home shortly after he has finished disposing of the body. Feeling supercilious, the narrator invites them in to chat; sitting directly over the old man’s dismembered body. Hearing what he thinks to be the old man’s heartbeat, the narrator’s nervousness grows while he is chatting with the police officers. Poe, once again, show’s us the narrator’s insanity through his resulting actions, â€Å"I foamed–I raved–I swore! I swung my chair upon which I had been sitting, and grated it upon the boards,† (GB, pg. 77). The reader can really see the  climax of the narrator’s abnormal psyche when he actually thinks that the police of ficers can hear the beating heart too, â€Å"They heard!–they suspected!–they knew!–they were making a mockery of my horror!† (GB, pg. 78). In â€Å"The Tell-Tale Heart† Poe creates this kind of dismal and frightening atmosphere that is traditional to gothic style writing. By choosing dark or depressing words, Poe creates a dreary mood for the reader. This mood then reflects upon the characters’ thinking in the story. The narrator describes the old man’s eye, his fixation throughout Poe’s story, â€Å"One of his eyes resembled that of a vulture–a pale blue eye, with a film over it. Whenever it fell upon me, my blood ran cold,† (GB, pg. 74). The vulture is a creature of death, and by using this animal instead of another, Poe creates the sense of true evil, not just any old, ugly eye. The word pale gives the eye a quality of dullness or lifelessness, both of which have negative connotations; the film over the eye makes it repulsive to the reader, adding to the full effect of how grotesque this eye really was to the narrator. The reader can perceive from the mood that Poe creates in the story, what is going on in the mind of the narrator. The way that Poe has the narrator describe this eye shows the absolute hatred that he feels towards this eye. It gives the reader insight as to why the narrator is plotting this horrible murder. Each night, the narrator explains, how he goes into the old man’s room, describing it as â€Å"black as pitch with the thick darkness,† (GB, pg. 75). Poe writes the story so that the entire plot occurs at night, during this ‘thick darkness’, making the narrator’s motives even more frightening. The atmosphere surrounding the narrator also reflects upon his emotions. He is about to commit murder, and action full of darkness and hatred, and Poe places the story in a dark, frightening setting instead of during the day or in the light of the narrator’s lantern. This feeling of fright is again created for the reader, by Poe, when the narrator goes into the old man’s room, startling him, â€Å"And it was the mournful influence of the unperceived shado w that caused him to feel–although he neither saw nor heard–to feel the presence of my head within the room,† (GB, pg. 76). Emptiness and a mechanical like quality set the tone for when the narrator speaks of the old man being dead and what he did with the dead remains, â€Å"he was stone, stone  dead†¦First of all I dismembered the corpse. I cut off the head and the arms and legs,† (GB, pg. 76). That quote alone is enough to frighten any reader, and that is exactly what Poe is aiming for by using this particular gothic writing technique. The reader can again see into the mind of the narrator. He is devoid of feeling for this old man, stating that the old man is ‘stone dead’; further more, he meticulously explains the steps of ridding himself of the body after murdering the old man. Poe’s last gothic writing technique to enhance the theme of insanity is the use of supernatural components throughout the story. By having the eye torment the narrator until he viciously murders the old man, Poe is bringing a supernatural aspect into â€Å"The Tell-Tale Heart.† The narrator’s hatred for the old man’s eye is unexplainable, and the narrator himself does not even know why he came up with the idea, â€Å"It is impossible to say how first the idea entered my brain,† (GB, pg. 74). This eye almost possesses the narrator, becoming the driving force of his insanity. Another aspect of the supernatural at work in Poe’s story is when the narrator hears the beating of the old man’s heart in his own ears. It’s obviously impossible to hear the beating in the intensity at which the narrator describes it, â€Å"the sound would be heard by a neighbor,† (GB, pg. 76), but Poe adds this sentence to enhance the story’s supernatural aspect. Right after the narrator killed the old man, he could still hear the heart beating, again this feat is impossible, â€Å"for many minutes, the heart beat on with a muffled sound,† (GB, pg. 76). Even after the beating stopped, according to the narrator, it began again, once the police arrived. Poe makes it clear that the beating heart is not just the narrator listening to his own heart, or imagining the sound in his head, â€Å"until, at length, I found that the noise was not within my ears,† (GB, pg. 77). An unexplainable noise that grows louder and louder can only be the work of the supernatural. For the narrator even believes that the police officers can hear the beating too, and are making a mockery of his horror. Poe cleverly intertwined this idea of the supernatural, a gothic writing element, to intensify the lunacy of his main character. Throughout his short stories and poems, Poe uses the technique of gothic writing. In â€Å"The Tell-Tale Heart† Poe contributes to his main theme by  directly using certain gothic writing elements. More specifically, Poe uses the supernatural, gives his character an aberrant psyche, and creates a murky and chilling atmosphere that also directly correlates with the characters behavior and thinking. SUGGESTIONS: Paragraphs need to be broken up more. A little wordy NOTE: all quotations are taken directly from â€Å"the tell-tale Heart† This is an analysis of Poe’s story and his use of gothic theme writing.

Porters Five Force Analysis for Paint Industry

1. Concepcion-Carrier Air Conditioning Company Formed in January 1998, Concepcion-Carrier Air Conditioning Company (CCAC) brings together two leaders in the air conditioning industry: Carrier Corporation of the United States and Concepcion Industries, Inc. of the Philippines. In just a few years, CCAC expanded from manufacturing window room air conditioners to becoming the market leader in virtually all categories of Heating, Ventilating and Air Conditioning (HVAC) equipment and services in the country. CCAC brings to the Philippine market Carrier Corporation's long tradition of innovation and product excellence.It has the Philippines' largest air conditioning facility that makes an wide range of products of outstanding quality, and is recognized by customers abroad, who source from it products proudly Philippine-made. Carrier products are designed in engineering centers and manufacturing facilities located worldwide. Spread across six continents, Carrier's global operations make it the largest manufacturer of air conditioning, heating, ventilation and refrigeration products. It is supported by a vast network of distributors, dealers, retailers, and technicians who sell, install and service Carrier products in over 170 countries.A heritage of technological innovation. Leadership in responsible environmental stewardship. Carrier Corporation and CCAC – creating environments for life. Worldwide. * Concepcion Industries, Inc is a maker of electrical appliances such as air conditioning equipment and refrigerators. The company is based in the  Philippines  and was founded in the 1960s. The company is known for its several notable brands that include  Carrier,  Condura, and  Kelvinator. * Carrier in 1902, Willis Haviland Carrier designed the world's first air-conditioning system.This single achievement made it possible for people to live, work, study, shop, travel, or play in worry-free indoor comfort. Today, Carrier continues to build on the pioneeri ng spirit of its founder. With manufacturing, sales, and service operations in more than 170 countries, Carrier is the world's leading heating, ventilation and air-conditioning company. It leads in developing a constantly growing array of innovative products – all designed to meet the exacting needs of its customers around the world, while leading the rest of the industry in forging higher standards of stewardship over the environment. . Panasonic Manufacturing Philippines Corporation (PMPC) A manufacturer, importer and distributor of electronic, electrical, mechanical, electro-mechanical appliances, other types of machines, parts and components, battery and related products bearing the brand name, â€Å"Panasonic†. At present, the primary products manufactured by PMPC are refrigerators, air conditioners, washing machines, electric fans, dry cell batteries and flashlights.Consequently, through its sales division, Panasonic Philippines (PPh), PMPC Continually strives to expand its sales, service and distribution networks to make Panasonic products and service conveniently available to its consumers. In October 2003, PMPC ceased using â€Å"National† Brand and Unified the branding of all its products under the Panasonic brand. PMPC, formerly known as Matsushita Electric Philippines Corporation, changed its corporate name to Panasonic Manufacturing Philippines Corporation and officially started using it on April 1, 2005 along with its continuing commitment to customer satisfaction and service to society.Since an enterprise uses society's resources – people, capital, real estate, community services – PMPC believes that it started out and remains indebted to society. Along this premise, the company recognizes that the primary role of its business is to serve society in return for the use of its resources and thus devotes its business activities to the progress and development of society and the well being of the people. This commi tment serves as guidance for PMPC in carrying out its operation and corporate activities. 3. Koppel, Inc. 957 marked the year when the company started manufacturing splits and packaged type air-conditioners. The years that ensued saw Koppel as the preferred brand of choice among industry consultants and the undisputed market leader in the industry. The company continued its growth and maximized its sales volume, growing its products and improving its services, making Koppel the by-word in all air conditioning requirements across the country. In January 2000, Koppel was acquired from Asea Brown Boveri (ABB) by Fedders Corporation.By then, the company has expanded its product line-up to include not just the commercial and industrial segments, but to tap the growing retail market through  residential air conditioners. Last September 2008, the company has been acquired by KPL Inc. , a local company which is keen on tapping the dynamic aircon market. As Koppel, Inc. , the company is fo cused in strengthening its core competency in the packaged business and advancing its technological capability by sourcing strategic products in the projects and industrial applications.To date, Koppel is the second largest aircon manufacturer in the Philippines, servicing aircon requirements across the country for over 50 years. Its rich heritage in providing high-quality and reliable aircon products is a testament to Koppel’s commitment to service all its customers nationwide, from its centrally-located office in Paranaque to its full-service branch  offices  in Cebu and Davao. For 2009, Koppel, Inc. has expanded its product range to include eco-friendly products that dramatically reduce our  energy consumption.The company continues to challenge itself with ways to help reduce our  carbon footprints and in the long run, protect our fragile environment. 4. Hitachi Air Conditioning Philippines, Inc. Established on March 02, 2000 with a capital fund of 20,285,000 pesos . Mainly engage on the manufacture and sale on wholesale basis of Home Appliances and air conditioners. nvestment for Hitachi Air Conditioning Sales is 85% financed by Taiwan Hitachi Co. ,Ltd. and 15% by Hitachi Life and Solutions, Inc. Hitachi Air Conditioning Sales (Phils. ) Inc. ells air conditioning products like the Self-Contained Air Conditioners,Air-cooling Chiller Unit, Room Air Conditioners, Packaged Air Conditioner,Fan Coil Unit, and Dehumidifier, washing machines and refrigerators which are distributed in the domestic market. The merger between the two companies, Taiwan Hitachi (Subic), Inc. and Hitachi Air Conditioning Sales (Phils. ), gave way to better opportunities for Hitachi air conditioning products and home appliances to be introduced to a wider range in the market both domestic and global. . KOLIN Philippines International, Inc. A consistent major player in the industry, that is committed to produce, innovate, and distribute world class home appliances and servic e, molded by competence and dedication to quality after-sales-service, guided by moral and ethical business principle. Contributes to the development, growth and upliftment of the welfare of its employees, shareholders, customers and suppliers. Genuinely committed in supporting community endeavors in the preservation of the environment.