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	Haiti Power
Project Medishare HAES had pledged to help disassemble the generators Péligre hydroelectric plant on the Artibonite River Dresser Natural Gas	Haitian American Engineering Society GENERATORS PROJECT COMMITTEE FOR HAITI (1996,97) Gas stoves in Port d Paix and electricity 27 July 2002 Pyramid Ponzi Energy consumption in Haiti In 2001 Haiti produced 580 million kilowatt-hours Mostly Charcoal United Nations Generators for its Mission in Haiti 26.03.2004 Installed electricity capacity 1980s 147 MW increase to 190 MW - 1990s. Haiti had limited energy resources in the late 1980s Data as of December 1989 Wood 75 % Petroleum 15 %; bagasse (sugarcane residue), 5 %; and hydroelectric power, 5 %. Generators Port-de-Paix teaching at Sonlight Academy, a K-12 mission school. 47-MW Péligre hydro plant, 22-MW Guayamouc hydro, series of small hydro, 2 large thermo-electric (42-MW Varreux and 38-MW Carrefour), United Nations is seeking expressions of interest for 100 V 60 cycle generators
In 2001 Haiti produced 580 million kilowatt-hours mostly charcoal Project Medishare was donated four 279 Kilowatts "Caterpillar" D397 HAES had pledged to help disassemble the generators George Crane Company transported two of the generators qualified engineers and technicians capable of completing this project in Haïti. generators only about seven hours a day to conserve the Péligre hydroelectric plant on the Artibonite River United Nations is seeking expressions of interest from reputable manufacturers, authorized dealers and distributors of 100 Volts, 60 Hertz Generators for its Mission in Haiti. Oil imports, mainly from the Netherlands Antilles and Trinidad and Tobago, amounted to about 15 percent of total imports. Installed electricity capacity 1980s 147 MW increase to 190 MW - 1990s. 47-MW Péligre hydroelectric plant, 22-MW Guayamouc hydro series of small hydro, 2 large thermo-electric (42-MW Varreux and 38-MW Carrefour),	Project Medishare Haitian-American Nurses Association (H.A.N.A.), Haitian-American Engineering Society (H.A.E.S.), and Jackson Memorial Hospital/Miami-Dade, teaming up to help bring a solution to the electricity crisis at University Hospital of Port-au-Prince, Haiti. http://www.haiti-science.com/haitech/1art3.htm Haitian American Engineering Society By Noe Dorestant, E.E. On behalf of the Haitian-American Association of Engineers and Scientists, I invite you to continue to visit our Web sites at http://www.haiti-science.com, and http://www.geocities.com/ndorestant/haesuvnr.htm. There, you can enjoy and participate in the sharing of information about Haitians desires and accomplishment in their quest to contribute and compete in this free modern world of Science, Technology and Engineering. Where mostly the contents of one's mind and the degree of one's intelligence to create and innovate surely matters to succeed with some luck and the granting of opportunity whenever one cannot provide it to oneself. At HAES, we have the forum and the vehicle to promote such endeavors, so join us and work with us so we can continue to dream and conceive with all our limitations for a better tomorrow. As we approached the dawn of a new century (year 2000), the upcoming anniversary of the bicentennial of the birth of our nation, Haiti (1804-2004) and the first decade of existence of H.A.E.S. (1989-1999). Let us all thank God for the many blessings, let us acknowledge each other, and let us rekindle the flame of a long and lasting friendship of true brotherhood and sisterhood. Lets us work together in liberty and let us make a difference, while fostering equal opportunities for all, who are willing to contribute for the good of our common humanity. Team Members: Dr. Michel Dodard, Mr. Marc Gauthier, Ms. Carlana Stone, Mr. Max E. Massac, PE. and Mr. Noe Dorestant, EE (HAES/Medishare project team Leader). GENERATORS PROJECT COMMITTEE FOR HAITI (1996,97) *Noe Dorestant, Gerard Boulos, Max Massac, Marc Gauthier, Guy Lacombe, Yves Pierre, Romain Preal, Fritzgerald Wolff, Sylvan Jolibois. http://www.geocities.com/CapeCanaveral/9972/haes.4.html In the first week of February 1996, I was contacted by Miss Liliane French, Vice-President of the Haitian-American Nurses Association (H.A.N.A.) and board member of Project Medishare, a local non-profit organization made of concerned medical professional seeking to help their colleagues in Haiti upgrade their country's health care system. Miss French began by telling me about the project, which started in January 1995, when a Medical and Engineering (Jackson Memorial Hospital) assessment team went to Haiti, with the goal of determining how best Project Medishare could assist in meeting the medical needs of the Haitian people. One of the problems they identified at the University Hospital in Port-au-Prince was a lack of electricity, not to mention the absence of any back up system to keep the hospital operational in case of sudden loss of power. Upon their return to Miami, Project Medishare was donated four 279 Kilowatts "Caterpillar" D397 Diesel Engine Electrical power generators, of which two were earmarked for the Port-au-Prince University Hospital of Haiti. They quickly attempted to get the generators ready to be sent to Haiti, however the first dismantling estimate they had received from Caterpillar was beyond their financial means. Subsequently, Miss French asked me if my colleagues and I at the Haitian American Engineering Society (HAES) could help her organization with this challenge. This was a golden opportunity for HAES to get involved in a project that would benefit the busiest hospital in Haiti. After all, HAES has always proclaimed that its goal as an organization is to help Haitians, the community where they reside and our motherland; this was a terrific opportunity to make our maxim a reality. When I presented the generator project to the HAES board members, we agreed in principle to at least take a field trip on February 3, 1996 to Jackson Memorial Hospital to evaluate whether or not we were up to the task and convince ourselves that it was a worthwhile cause for us to get involved in. The response was overwhelming: "We must do it", and our credo: "now is the time to act". On February 26, we were invited to a Project Medishare board meeting at Dr. Arthur Fournier residence, where it was announced that HAES had pledged to help disassemble the generators. We took the opportunity to present our time estimate and our plan of action. Present at that meeting was a representative of Governor Lawton Chiles, Mr. Slackman, who also pledged to assist in the transportation of the generators to Haiti. It was also brought to our attention by Project Medishare, that Congresswoman Carrie Meek also made some commitment to this regard. In addition, we were notified that the UN medical command and their Corps of Engineers would oversee the installation of the generators in Port-au-Prince. Life is nothing but a dream; our actions make it real. After HAES committed itself to help disassemble four generators to be shipped to Haïti, we became overly concerned that the project would stall. There were discouraging signs that certain groups would not deliver on their promises and would fail to provide heavy equipment to move the generators from their storage location at Jackson Memorial Hospital to the shipping ports. Thankfully, over the years, we have developed the discipline of always having a back-up option in case of failure of the primary plan. In January 1997, the George Crane Company transported two of the generators on a flat bed crane truck to the Miami River, the Mecca for most Haitian owned boats bringing supplies to the island nation. It has been verified that the Electricité d’Haïti (EDH) is currently testing and retrofitting two of the generators. It is our hope that, in a not too distant future, the communities which were chosen to receive the generators –Thomonde, Môle Saint Nicolas, La Gonâve, and Arcahaie – will soon have the electricity they so desperately need for their development. It took a lot of planning, hard work and perseverance to overcome this first obstacle. However, the job is not over! A tremendous engineering task remains to be accomplished by our Haïtian counterparts: Rebuild in Haïti what was disassembled in Miami. But, we are convinced that there are qualified engineers and technicians capable of completing this project in Haïti. The challenge will be to use goodwill and team effort to pull together resources to make this dream a reality. This project is an example of what can be accomplished when we work together. If more of us were willing to lend a helping hand whenever and wherever we could, we might be pleasantly surprised of what can be accomplished. So, let's keep the teamwork going! Mission accomplished in Miami: L-R Irving Elizee (Motion/HAES Civil Engineer), Project-Medishare/HAES/Jackson Memorial Hospital Generator Project team leader Noe'Dorestant (HAES Electrical/Computer Engineer), Mayor Delva (Thomonde/Haiti). Gas stoves in Port d Paix and electricity http://www.tennessean.com/williamsonam/archives/04/03/47987538.shtml Julie Cochran has been in the coastal town of Port-de-Paix teaching at Sonlight Academy, a K-12 mission school. All power here is generated. There is no MTEMC. We have generators that actually provide electricity to us and the blocks surrounding our school grounds. However, we have to run the generators only about seven hours a day to conserve. Thank goodness for gas stoves. 27 July 2002 Pyramid Ponzi Co-operatives with many members have long been used in Haiti to buy electric generators, water pumps and fishing boats for villages in Haiti. They were OK! Then along came Pyramid Ponzi schemes (disguised as co-ops) used to "buy income" for participants. They boomed after Haiti's President Aristide off-handedly endorsed them. Now he has said the government will return the money to people that lost homes and life savings. Fat Chance! To do that he would have to shut down many schools and hospitals. He is just stalling for time. Aristide also said the U.S. is to blame because we have not showered them with money. http://www.mlmwatchdog.com/RC_Haiti.html Energy consumption in Haiti The rate of energy consumption in Haiti is among the lowest in the world. Other than private generators, the Péligre hydroelectric plant on the Artibonite River is the only local source of commercial energy. In 2001 Haiti produced 580 million kilowatt-hours, mostly by burning imported fossil fuels. Poor Haitians use charcoal to supply energy for home use. http://encarta.msn.com/encyclopedia_761576153_2/Haiti.html United Nations Generators for its Mission in Haiti 26.03.2004 Haiti: Various capacity generators of 110 Voltz, 60 Hertz http://www.evd.nl/zoeken/ShowBouwsteen.asp?bstnum=110498 Fase: Belangstellingsregistratie Sluitingsdatum: 05.04.2004 Aanbestedingsnummer: Omschrijving: The United Nations is seeking expressions of interest from reputable manufacturers, authorized dealers and distributors of 100 Volts, 60 Hertz Generators for its Mission in Haiti. The required generators will have a capacity ranging from 10 to 750 Kva. Detailed technical specifications, quantity of each capacity of generators required as well expected delivery dates will be indicated in the UN’s Request for Proposal that will be sent out to all responding to this EOI. Financier: Aanbestedingsinformatie: Contactadres: 26.03.2004 Bron: Development business online (1p.) Nummer: 110498 Zie ook: Verenigde Naties: United Nations Office for Project Services (UNOPS) De volledige tekst is op te vragen via het formulier kopieaanvraag. Vermeld steeds uw eigen faxnummer. Wij versturen géén kopieën per e-mail, alleen per fax of per post. Kosten: bij meer dan 50 pagina's 0,20 euro per pagina en 5,00 euro administratiekosten. Haiti had limited energy resources in the late 1980s Data as of December 1989 Courtesy Pan-American Development Foundation http://www.exploitz.com/Haiti-Energy-cg.php The country had no petroleum resources, little hydroelectricity potential, and rapidly diminishing supplies of wood fuels. Wood accounted for 75 percent of the nation's energy consumption. Petroleum accounted for 15 percent; bagasse (sugarcane residue), for 5 percent; and hydroelectric power, for 5 percent. Energy consumption was paltry, even for a low-income country. Haiti's per capita energy use in 1985 was equivalent to that in Bangladesh and about seventeen times less than that of neighboring Jamaica. Having virtually no access to electricity, Haiti's poor depended on the felling of trees for the production of charcoal. Similarly, many rural and provincial small businesses used wood as a fuel in powering their operations. Beginning in the late 1940s, various international oil companies had unsuccessfully explored for oil in Haiti's Artibonite Basin and Cul-de-Sac Basin. The prospects for drilling deeper wells or attempting even higher-risk offshore exploration were not promising. Oil imports, mainly from the Netherlands Antilles and Trinidad and Tobago, amounted to about 15 percent of total imports. Electricity consumption increased sixfold between 1970 and 1987, but only 10 percent of the population had access to electricity by 1986. About 45 percent of the residents of Portau -Prince had access to electricity--a reflection of the concentration of national economic efforts and resources in the capital--while a mere 3 percent of those outside the capital enjoyed similar access. Installed electricity capacity in the late 1980s was estimated at 147 megawatts (MW), and it was expected to increase to 190 MW by the late 1990s. The National Electricity Company (Electricité d'Haiti--EdH), created in 1971 to control the newly built Péligre hydroelectric plant, operated the nation's power system in the late 1980s. As was true of other enterprises throughout the economy, the president was the nominal head of EdH. The company administered the 47-MW Péligre hydroelectric plant, the 22-MW Guayamouc hydroelectric plant, a series of smaller hydroelectric plants, two large thermo-electric operations (42-MW Varreux and 38-MW Carrefour), small generators, and the distribution system. The national system, however, was highly disjointed; no power links extended from the capital to provincial cities. Supplies of imported petroleum used in thermal plants fluctuated because of foreign-exchange shortages, and dryseason water shortfalls hampered production at hydroelectric dams. EdH's generation was unreliable. Under these conditions, rationing of electricity was common in the 1980s, and most larger businesses maintained back-up generators. EdH, which had suffered financial problems in the 1970s, charged the highest electricity rates in the Caribbean in the 1980s. Many people illegally tapped into power lines, and by the late 1980s, as many as one in four urban residents reportedly engaged in this practice. International development agencies had explored alternative sources of energy, such as wind power, solar power, methanol production from sorghum, and power generation from organic waste, but none appeared to be immediately feasible.
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