Alternate Fuel For Your Future Cars

An alternative fuel vehicle is a vehicle that runs on alternative fuels.
So, what is an alternative fuel?

"Alternative fuels" are vehicle fuels that aren't made from petroleum. There are many kinds of fuels that vehicles can run on that aren't made from petroleum. The United States Department of Energy officially recognizes this list of alternative fuels:

• Alcohols - ethanol and methanol.
• Compressed natural gas (CNG) - natural gas under high pressure.
• Electricity - stored in batteries.
• Hydrogen - a very special type of gas.
• Liquefied natural gas (LNG) - natural gas that is very, very cold.
• Liquefied petroleum gas (LPG) (also called propane) - hydrocarbon gases under low pressure.
• Liquids made from coal - gasoline and diesel fuel that doesn't come from petroleum.
• Biodiesel - a lot like diesel fuel, but made from plant oil or animal fat.

Almost all of the fuel we use for transportation is made from petroleum. Gasoline and diesel fuel account for all but about one-fourth of one percent of California's transportation fuel. Most California gasoline does contain a small amount of ethyl alcohol (also called ethanol), which increases the oxygen content of the gasoline for cleaner burning.

The fact that California is nearly 100 percent dependent on petroleum for transportation could cause a serious problem, like it did in 1973 and 1979 when the gas supply was limited and the prices went up.

• California's dependence on petroleum makes us vulnerable to price and supply disruptions.


• Air quality concerns have increased the importance of alternative fuels and advanced transportation technologies like electric vehicles.


• By increasing alternative fuel use, such as natural gas and electricity, consumers have fuel choices that compete with gasoline and diesel, broaden our supply base, and have lower environmental impacts.

Natural gas is the basic energy source for some of the alternatives to petroleum. On one hand, this is good because most of the natural gas we use comes from friendly North American countries, if not the United States itself. And at the present, there seems to be a plentiful supply of natural gas. So, the supply of natural gas is relatively stable and reliable. On the other hand, natural gas is a non-renewable fossil fuel, just like petroleum and coal, and so, it too will some day be used up if people continue to use a lot of it.
Bio diesel:
Bio diesel is not regular vegetable oil and is not safe to swallow. Bio diesel is biodegradable though, so it is much less harmful to the environment if spilled. Bio diesel is made through a process called transesterification. This process makes vegetable oil and animal fat into esterified oil, which can be used as diesel fuel, or mixed with regular diesel fuel.

Ordinary diesel engines can run on bio diesel. Practically any type of vegetable oil or animal fat can be used to make bio diesel. But the most popular types of vegetable oils are soybean and rapeseed oil. Soybeans are used to make tofu and soy sauce. Soybean and rapeseed oil have been tried as bio diesel because they are less expensive than most other types of vegetable oil. Although soybean and rapeseed oil are more expensive than regular diesel fuel, most other types of vegetable oils are too expensive to even be considered for use as diesel fuel. Animal fat also is too expensive for this use, but used oil from restaurants has been tried for bio diesel. We have to work for our future otherwise our future may be very dark.

Bio diesel has been shown to produce lower tailpipe emissions than regular diesel fuel. The best thing about bio diesel is that it is made from plants and animals, which are renewable resources.

Drinking Water Business and Oil Companies

Today Drinking water is becoming scarce day by day . Even water from certain areas is vanishing due to wastage of water. Some oil and gas companies are starting to consider testing water wells before they drill oil and natural gas wells. This stems from the debate about whether hydraulic fracturing threatens the safety of drinking water.

Cabot Oil and Gas Corp. faced water-contamination questions in Pennsylvania while Range Resources Corp. faced similar questions regarding its Barnett shale operations in Texas. The accusations have caused some within the oil and gas industry to question the quality of drinking water before any oil and gas drilling was done.

Meanwhile, Texas Railroad Commissioner Michael L. Williams on Dec. 7 accused the US Environmental Protection Agency of “Washington politics of the worst kind” and of “grandstanding in an effort to interject the federal government into Texas business.”

Williams made his comments after the EPA suggested that gas operations by Range Resources contaminated two water wells in southwest Parker County, Tex., where gas was found in the water. Range Resources issued a Dec. 8 news release saying research indicates its operations did not cause any methane in the water wells.

For months, Range Resources worked with the RRC and others on extensive testing of both its gas wells and the water wells of concern.

Cabot Oil and Gas said in an Oct. 19 release that it has proof that methane gas has been present in water wells around the Dimock Township, Pa., area for generations. Four Dimock-area water wells have methane levels in the water that exceeds levels suggested by the US Department of the Interior.

“We do not believe that our operations caused the Dimock water-quality issues,” a Cabot spokesman said.

All of this is causing oil and gas companies to consider testing the water before they drill.

Make Money Faster Than Before

Like other people you may be looking for the ways to make faster money online, but the lack of knowledge comes in their wayAre you searching for ways to make money online? There are many ways you can earn extra money or a full time living and it does not require you to have an Internet business until you are ready. Often, people lose out on making extra money via the Internet for lack of knowledge. Let's face it, you might have a beautiful brand new car, but if you do not know how to drive it, then the car does not do you much good. Think of the Internet like this car, you can make money, but you have to know how to use it.

First of all, make sure you do not fall into a trap of giving money to a company in order to make money, because this is often the first sign of a scam. Therefore, make sure you are dealing with legitimate companies because this will ensure you make money in a faster way. Remember, when you do work for someone they are paying you, you do not pay them.

One of the best ways to make money fast and you do not need an Internet business is a garage sale. You can advertise online for your garage sale and many times it is free of charge. This is great way to get fast money and clear out your clutter in your home and garage, therefore, it is a win-win situation! So you can use it very easily.
Do you need a new checking account? Many banks will offer you $25 or more to open an online checking account. They place the money directly in you account. It is a totally free way to make
money and you get a checking account out of the deal. That's not bad money for 15 minutes of your time, which is about what it takes to complete the application on the bank's website.

Do you know how to make backgrounds for Myspace or Twitter? They are very popular and people pay money for professional looking backgrounds. It is also a way for you to show your graphics and talent if you want to do graphic art on the side. You can make money and if you are good at it, you can begin an Internet business in order to get private clients and really make good money full time.

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Finally, if you are good with graphics, you can also make money by creating logos for other. People use logos for their businesses and they are always looking for freelancers that charge a reasonable fee. You can make a lot of money if you are good, charge a reasonable fee, and have a quick turn around time.

Lastly, you can explore other ways to make money and build an Internet business for no out of pocket money on your part, unless you have your website designed by someone else. It is easy to earn a full time living online or make

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extra money when you know what people want and use your talents. There are certain other methods by applying which you may make money faster.

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Business Marketing on the Internet

Every one wants to promote his business . Having a presence on the Internet is an essential part of most business models today. However, this alone is not enough. A sound step-by-step marketing plan is needed to attract visitors to your website and convert these visitors into customers. This article will offer some suggestions on different ways that you can market your business using the Internet to increase your business’s chances of success in the highly competitive 21st century marketplace

Although having sound Web Design for your website is important, there are more actions needed to drive prospects to your online presence.
There are many ways like ,
1. Email marketing
2. Blogging
3.Social Media,
4. Search Engine Marketing ,
1. Email marketing:
You will want to utilize Email Marketing in your marketing plan. One possibility that you might want to consider is starting a newsletter. A monthly newsletter can become something your customer looks forward to receiving and will aid in building customer loyalty. This is a great way to keep your brand name in the mind of your customers.

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2. Blogging:
Although the Internet is littered with a myriad of blogs, it’s advisable for many business to have one. It is another way for you to keep in touch with business prospects and existing customers. You can post a newsletter and then allow people to comment on it, and linking your blog to your website can be a great way to increase the amount of web traffic to your core business site.

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3.Social Media:
Additionally, it is possible to build revenue through affiliate programs. In these affiliate programs, if a prospect is not interested in your offering they can click on a link (on your site) to a related product offered by another company (on another site). If the customer that linked from your site ends up purchasing that product on the affiliate’s site, then you make a commission.

You also should be engaging in Social Media Marketing. Sites such as Facebook and Twitter present a new and exciting way to market your business. In the current marketplace, it is vital

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that you actively connect with your future buyers, and social networking sites such as those previously mentioned provide a great platform to do just that. Millions of people use these sites daily, so you should be doing everything you can to connect with these millions of potential customers.
4. Search Engine Marketing:
Finally, you must have a commanding presence with the major search engines. Your buyers need to be able to find you, and they need to be able to find you fast! User attention span on the Internet is very short. Do not underestimate the power of a good search engine ranking. The goal you should strive for is to have your site place above the fold in the search engine results for your selected key words.

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One can promote his business by the above mentioned ways. There may be more than that.

Fashion in Business

Fashion is a big business. It touches almost all communities of the World. Each year, as the fashion shows reach their climax and their finale in Paris, we hear the cry of how good the British designers were, how fertile their ideas, how exciting their young talent. Absolutely right. Thanks partly to the art colleges and partly to the multicultural flowering of the country, Britain is peculiarly fecund in its design imagination. John Galliano showed for Dior yesterday; Vivienne Westwood follows after.

If one has a good imagination skills then he or she can start a good fashion business. But it may also run a great risk . Ideas must be unique if you want to survive in a fashion world. in addition you must take care of it that which category you are going to touch.

But it is worth remembering that for the French, fashion is "faire le business". Ideas make a splash but it takes devotion to the hard graft of fabric, detail, cutting and sourcing to make a business. Fashion remains an industry supporting thousands of small specialist businesses supplying everything from buttons to lace. In Britain that infrastructure is dying as the stores source from cheaper suppliers in Asia and the designers content themselves with one-off shows.
The importance of fabric , details and cutting cant be denied. One must do a grand survey before bringing forward his masterpiece.

Kuwait and Business opportunities and America

U.S. sells its products to Kuwait. Kuwait imports a wide variety of U.S. military, industrial and consumer products. Kuwait is the fifth largest market for U.S. exports in the Middle East and North Africa. The U.S. is Kuwait's largest trading partner. Kuwait has to produce export quality products.

Leading military imports in the past three years have included aircraft and parts, air defense systems, radar and tanks. Leading industrial imports include oilfield equipment! parts, aircraft parts and generators. Leading consumer imports include passenger vehicles and trucks. Other significant imports include: air conditioning and refrigeration equipment, carpeting, cigarettes, computers, construction equipment, fire fighting equipment, fishing boats, hardware, housewares, medical equipment, office furniture, pleasure boats/yachts, process controls, processed foods, telecommunications equipment and water treatment equipment.

The Commercial Environment

Kuwait is a highly price-competitive market because it has low tariffs (generally only 4 percent), few import barriers and no exchange controls. Procurement for large public sector projects dominates the business scene; there is almost no manufacturing and little non-oil exporting. American firms generally need to work through a local agent or distributor, and should monitor an agent's performance and potential conflicts of interest. American business negotiators find that Kuwaiti buyers have a strong bias in favor of the lowest price, despite a higher priced product's technical advantages or long-term savings.

Kuwait has a lot of business opportunities but a new business man has to think before investment. There are many importers in Kuwait who are striving to produce excellent products. Kuwaitis are interested in American products and business proposals because of ongoing goodwill toward the U.S. as a result of the Gulf War, local media coverage of American news and popular culture, and because large numbers of Kuwaitis have studied in the U.S. or travel there regularly for business or family vacations. Kuwaitis appreciate American products' high quality and association with a convenient, comfortable, modern, affluent lifestyle.

Kuwaitis readily buy American products that are competitive in price and quality. If an importer comes in Kuwait then he has to think about that he is going to compete those importers who are already working there. A lot of home work is required to do business there.

Thin-film Solar Cells shall Give a Boost To Your Business

Today power is a big requirement in every field of life , especially when you are a business person and you need it for the production or other purposes. The solar panel is an enduring icon of the quest for renewable energy. You'll see the black-paned rectangles on the rooftops of houses or assembled into arrays across fields and prairies. But the panel as we have come to know it -- 5.5 feet by 2.75 feet by 2 inches (1.7 m by 0.8 m by 5 cm) -- may be history. That's because a new type of technology stands ready to take its rightful place next to traditional silicon wafer-based panels as an efficient, cost-effective way to convert sunlight into electricity.

Beyond 2010, production capacity will increase even more as thin-film PV cells find their way into solar-powered commercial buildings and homes, from California to Kenya to China.

Other than their flexibility, how do thin-film solar cells compare to traditional solar cells? Why are they more cost efficient? And are they the kind of energy source that will make solar power a truly viable alternative to coal and nuclear power?

What is a Thin-film Solar Cell?

If you've used a solar-powered calculator, you've seen a solar cell based on thin-film technology. Clearly, the small cell in a calculator is not big and bulky. Most are about an inch (2.5 cm) long, a quarter-inch (0.6 cm) wide and wafer-thin. The thinness of the cell is the defining characteristic of the technology. Unlike silicon-wafer cells, which have light-absorbing layers that are traditionally 350 microns thick, thin-film solar cells have light-absorbing layers that are just one micron thick. A micron, for reference, is one-millionth of a meter (1/1,000,000 m or 1 µm).

Thin-film solar cell manufacturers begin building their solar cells by depositing several layers of a light-absorbing material, a semiconductor onto a substrate -- coated glass, metal or plastic. The materials used as semiconductors don't have to be thick because they absorb energy from the sun very efficiently. As a result, thin-film solar cells are lightweight, durable and easy to use.

There are three main types of thin-film solar cells, depending on the type of semiconductor used: amorphous silicon (a-Si), cadmium telluride (CdTe) and copper indium gallium deselenide (CIGS). Amorphous silicon is basically a trimmed-down version of the traditional silicon-wafer cell. As such, a-Si is well understood and is commonly used in solar-powered electronics. It does, however, have some drawbacks.

One of the biggest problems with a-Si solar cells is the material used for its semiconductor. Silicon is not always easy to find on the market, where demand often exceeds supply. But the a-Si cells themselves are not particularly efficient. They suffer significant degradation in power output when they're exposed to the sun. Thinner a-Si cells overcome this problem, but thinner layers also absorb sunlight less efficiently. Taken together, these qualities make a-Si cells great for smaller-scale applications, such as calculators, but less than ideal for larger-scale applications, such as solar-powered buildings.

Promising advances in non-silicon thin-film PV technologies are beginning to overcome the issues associated with amorphous silicon.

Structure of Thin-film Solar Cells

Because structure and function are so closely linked with solar cells, let's take a moment to review how they work. The basic science behind thin-film solar cells is the same as traditional silicon-wafer cells.

Photovoltaic cells rely on substances known as semiconductors. Semiconductors are insulators in their pure form, but are able to conduct electricity when heated or combined with other materials. A semiconductor mixed, or "doped," with phosphorous develops an excess of free electrons. This is known as an n-type semiconductor. A semiconductor doped with other materials, such as boron, develops an excess of "holes," spaces that accept electrons. This is known as a p-type semiconductor.

A PV cell joins n-type and p-type materials, with a layer in between known as a junction. Even in the absence of light, a small number of electrons move across the junction from the n-type to the p-type semiconductor, producing a small voltage. In the presence of light, photons dislodge a large number of electrons, which flow across the junction to create a current. This current can be used to power electrical devices, from light bulbs to cell phone chargers.

Traditional solar cells use silicon in the n-type and p-type layers. The newest generation of thin-film solar cells uses thin layers of either cadmium telluride (CdTe) or copper indium gallium deselenide (CIGS) instead. One company, Nanosolar, based in San Jose, Calif., has developed a way to make the CIGS material as an ink containing nanoparticles. A nanoparticle is a particle with at least one dimension less than 100 nanometers (one-billionth of a meter, or 1/1,000,000,000 m). Existing as nanoparticles, the four elements self-assemble in a uniform distribution, ensuring that the atomic ratio of the elements is always correct.

The layers that make up the two non-silicon thin film solar cells are shown below. Notice that there are two basic configurations of the CIGS solar cell. The CIGS-on-glass cell requires a layer of molybdenum to create an effective electrode. This extra layer isn't necessary in the CIGS-on-foil cell because the metal foil acts as the electrode. A layer of zinc oxide (ZnO) plays the role of the other electrode in the CIGS cell. Sandwiched in between are two more layers -- the semiconductor material and cadmium sulfide (CdS). These two layers act as the n-type and p-type materials, which are necessary to create a current of electrons.

If with the help of this our power crises can be resolved then you may have a boost to your business.

Working of Solar Energy , It is Essential For Business

All of us may be aware of this that the resources from the earth are running out very rapidly . So to run our life and other businesses we have to think very seriously.

How Solar Cells Work

You've probably seen calculators that have solar cells -- calculators that never need batteries, and in some cases don't even have an off button. As long as you have enough light, they seem to work forever. You may have seen larger solar panels -- on emergency road signs or call boxes, on buoys, even in parking lots to power lights. Although these larger panels aren't as common as solar powered calculators, they're out there, and not that hard to spot if you know where to look. There are solar cell arrays on satellites, where they are used to power the electrical systems.

You have probably also been hearing about the "solar revolution" for the last 20 years -- the idea that one day we will all use free electricity from the sun. This is a seductive promise: On a bright, sunny day, the sun shines approximately 1,000 watts of energy per square meter of the planet's surface, and if we could collect all of that energy we could easily power our homes and offices for free.

Converting Photons to Electrons

The solar cells that you see on calculators and satellites are photovoltaic cells or modules (modules are simply a group of cells electrically connected and packaged in one frame). Photovoltaics, as the word implies (photo = light, voltaic = electricity), convert sunlight directly into electricity. Once used almost exclusively in space, photovoltaics are used more and more in less exotic ways. They could even power your house. How do these devices work?

Photovoltaic (PV) cells are made of special materials called semiconductors such as silicon, which is currently the most commonly used. Basically, when light strikes the cell, a certain portion of it is absorbed within the semiconductor material. This means that the energy of the absorbed light is transferred to the semiconductor. The energy knocks electrons loose, allowing them to flow freely. PV cells also all have one or more electric fields that act to force electrons freed by light absorption to flow in a certain direction. This flow of electrons is a current, and by placing metal contacts on the top and bottom of the PV cell, we can draw that current off to use externally. For example, the current can power a calculator. This current, together with the cell's voltage (which is a result of its built-in electric field or fields), defines the power (or wattage) that the solar cell can produce.

That's the basic process, but there's really much more to it. Let's take a deeper look into one example of a PV cell: the single crystal silicon cell.

Silicon

Silicon has some special chemical properties, especially in its crystalline form. An atom of silicon has 14 electrons, arranged in three different shells. The first two shells, those closest to the center, are completely full. The outer shell, however, is only half full, having only four electrons. A silicon atom will always look for ways to fill up its last shell (which would like to have eight electrons). To do this, it will share electrons with four of its neighbor silicon atoms. It's like every atom holds hands with its neighbors, except that in this case, each atom has four hands joined to four neighbors. That's what forms the crystalline structure, and that structure turns out to be important to this type of PV cell.

We've now described pure, crystalline silicon. Pure silicon is a poor conductor of electricity because none of its electrons are free to move about, as electrons are in good conductors such as copper. Instead, the electrons are all locked in the crystalline structure. The silicon in a solar cell is modified slightly so that it will work as a solar cell.

Silicon in Solar Cells

A solar cell has silicon with impurities -- other atoms mixed in with the silicon atoms, changing the way things work a bit. We usually think of impurities as something undesirable, but in our case, our cell wouldn't work without them. These impurities are actually put there on purpose. Consider silicon with an atom of phosphorous here and there, maybe one for every million silicon atoms. Phosphorous has five electrons in its outer shell, not four. It still bonds with its silicon neighbor atoms, but in a sense, the phosphorous has one electron that doesn't have anyone to hold hands with. It doesn't form part of a bond, but there is a positive proton in the phosphorous nucleus holding it in place.

When energy is added to pure silicon, for example in the form of heat, it can cause a few electrons to break free of their bonds and leave their atoms. A hole is left behind in each case. These electrons then wander randomly around the crystalline lattice looking for another hole to fall into. These electrons are called free carriers, and can carry electrical current. There are so few of them in pure silicon, however, that they aren't very useful. Our impure silicon with phosphorous atoms mixed in is a different story. It turns out that it takes a lot less energy to knock loose one of our "extra" phosphorous electrons because they aren't tied up in a bond -- their neighbors aren't holding them back. As a result, most of these electrons do break free, and we have a lot more free carriers than we would have in pure silicon. The process of adding impurities on purpose is called doping, and when doped with phosphorous, the resulting silicon is called N-type ("n" for negative) because of the prevalence of free electrons. N-type doped silicon is a much better conductor than pure silicon is.

Actually, only part of our solar cell is N-type. The other part is doped with boron, which has only three electrons in its outer shell instead of four, to become P-type silicon. Instead of having free electrons, P-type silicon ("p" for positive) has free holes. Holes really are just the absence of electrons, so they carry the opposite (positive) charge. They move around just like electrons do.

So where has all this gotten us?

N-type Plus P-type Silicon

The interesting part starts when you put N-type silicon together with P-type silicon. Remember that every PV cell has at least one electric field. Without an electric field, the cell wouldn't work, and this field forms when the N-type and P-type silicon are in contact. Suddenly, the free electrons in the N side, which have been looking all over for holes to fall into, see all the free holes on the P side, and there's a mad rush to fill them in.

Before now, our silicon was all electrically neutral. Our extra electrons were balanced out by the extra protons in the phosphorous. Our missing electrons (holes) were balanced out by the missing protons in the boron. When the holes and electrons mix at the junction between N-type and P-type silicon, however, that neutrality is disrupted. Do all the free electrons fill all the free holes? No. If they did, then the whole arrangement wouldn't be very useful. Right at the junction, however, they do mix and form a barrier, making it harder and harder for electrons on the N side to cross to the P side. Eventually, equilibrium is reached, and we have an electric field separating the two sides

Future of The Solar Energy and Silicone

Opening of an anganwadi (daycare center) in the Indian village of Karde that features a 28-panel solar power system. This system generates enough electricity for cooling fans and proper lighting for the Anganwadi and an adjacent school that previously had no power. In addition, Dow Corning arranged to have five solar powered street lights installed to make the village safer for students and residents.
n the discussions about solar energy, it’s too easy to forget that what we are really talking about is changing people’s lives. Education, safety – that’s what the solar story is about in the village of Karde,” . Dow Corning’s region president for India, South Asia, Middle East and Africa. “The solar power system will provide free, clean solar energy and create an environment far more conducive to learning. We can help these students reach their full potential in the classroom; we can help them create a brighter future.” Approximately 45 children will attend the Anganwadi; more than 100 students attend the school.
Still we have to improve it. This energy must be used to safe our future.

Tata BP Solar, a local manufacturer of solar systems and a Dow Corning customer, manufactured and installed the system. The solar panels contain silicon-based materials developed and manufactured by Dow Corning.

“This is a great example of the power of silicone chemistry to enhance lives around the world,” said Eric Peeters, Dow Corning’s global executive director for the solar market business unit. “Silicon-based materials play a key role in producing solar devices that perform well for decades, even with exposure to extreme conditions. For the children of Karde, that means a better chance to fulfill their dreams - having electricity in the classroom and daycare center and safer streets for years to come.”

One of the only companies in the world able to provide silicon-based solutions throughout the entire photovoltaic value chain, Dow Corning is investing to expand its portfolio of total solution packages for solar cell manufacturing, module assembly and installation. Solution packages are built on high-performance silicone products such as encapsulants, adhesives, coatings, potting agents and sealants, as well as next-generation solar grade silicon.

The company’s long-term commitment to sustainability and to providing solutions along the entire solar value chain is demonstrated by the more than $5 billion in investments it has announced over the past five years. Those investments include working to expand polycrystalline silicon capacity by 90 percent within the next four years; construction of its first facility to produce high purity monosilanes – the key raw material used in the production of thin-film solar cells and liquid crystal displays; and the opening of a Solar Solutions Application Center in Michigan and announcement of a second center in Korea at which it works with customers to develop, evaluate, and pilot materials and solutions used to manufacture solar panels.

About the Anganwadis
A Company has been working closely with villages around the company’s manufacturing facility in Ranjangaon, Pune to construct anganwadis. Local government bodies will run the anganwadi, which provide mothers, infants and children of up to age six with education, nutrition and healthcare.

How to Start a Business in Kuwait, The Challenges

there was a time when many people went Kuwait for business purposes. Conducting business in Kuwait today is not as easy as many think or assume. It is not mission impossible for those who can draw up a plan and make objectives clear and easy to implement. Of course, any theory which you cannot implement is wasteful. So, for those who follow a clear-cut strategy and a vision about what is really going on in the local market and how to achieve their aims, yes, businesses would be easy.

Old Business Owners:Two main thoughts here, first, that these are old business owners. They have been present in the local market for ages. They know how to keep their feet firmly planted on the ground. They know when to move and how to and where. Secondly, it is a fact that Kuwaiti society is small and there is a code that makes everything happen. For instance, if you do not follow the rules and try to fool someone, this marks the end of your reputation as decent business owners. Companies that good will not accept to cond
uct business with you.

As far a new company is concerned , there may be many difficulties to overcome. I believe that any new company needs to prepare its homework well and study their objectives in the local market before establishing businesses and starting usual procedures by renting offices and hiring staff to avoid major challenges. These are the usual concerns to expand business. Maybe hiring a consultant or a financial adviser would not be a bad idea to avoid making extra payment.

Also, a huge difference exists between small and big companies in term of size. Financial capability as well as the power of influence wielded by competitors and decision makers wil be able to expedite the process itself. Many think it is slow in Kuwait when compared to many other countries in the region. This tool can be easily used to affect others negatively and create non-existent fears.
Local Rules:
Another issue is the possible problems that arise from government regulations and local rules. This is an issue that should not be undermined or ignored. For example, every foreign investor here requires a local Kuwaiti sponsor. The laws cannot be circumvented.

Governmental Rules are a challenge when it comes to establishing a business. So, understanding the local system is a challenge. When you get to understand its needs and how it works, everything runs smoothly.

The Product Quality;There is another subject matter here, that is the product quality. It is the unspoken challenge. In fact, to import a high quality product is great but not easy. However, meeting international standards are possible. It requires commitment to supply a product that exceeds expectations.

As no fierce competition exists, enforcement of laws and country regulations are needed to keep everything under control and supervised. This is to avoid fraudulence and cheating . One must be very very careful and vigilante while starting a business in Kuwait.

Do You Want Online Insurance.

Insurance is a verey attractive term for those who know it. Once the insurance salesman visited you, then you visited his office. Now you pick up your phone or click your mouse. Does the Internet herald the end of the high street insurance broker in Britain? When I was a lad, some 25 years ago, the Insurance Company called to your door every month to collect your life insurance premium. My recollection is of a drab suited man having to run the gauntlet of neighbourhood dogs rather like the postman.

People may deposit money hastily. Then through the eighties more and more people found their wages being deposited directly into hastily set up bank accounts; this led to the standing order for paying all sorts of regular bills including insurances and heralded the demise of the door to door representative. An economy quickly realised by big insurance companies in the UK.

Then during the nineties big firms latched on to the idea of “direct” which is a handy abbreviation for cutting out the middle man. Just watch tv or listen to the radio toady and you are sure to observe this direct and that direct. The purpose of this in the world of insurance is to cut out the traditional high street broker and the percentage paid to them wherever possible.

The advent of the Internet and its increasing usage in most homes up and down Britain has accelerated the “direct” phenomenon. The big boys have quickly realised that websites are cheap to build and in addition there is a small army of privately owned websites on the World Wild Web that are more than happy to promote their insurance products for a commission – this commission usually being a lot less than a typical shop front broker is currently paid.

This all sounds very good………for the PLC that is. From the consumer’s point of view the casualty in all this is usually the level and quality of service. It’s fine when you are arranging your policy on the phone or on the net and you can even have the privilege of paying there and then by credit card. What will the “direct” experience be like when it comes to making ac claim? Just how “direct” is a call-centre located in India? While you the consumer are no doubt seeing some of the savings by skipping the broker don’t think for one minute that all the savings are being passed on.

Sanctions from US costing Iran investment, banking

There are many situations which may adversely effect the business of certain countries. Iran is finding it increasingly difficult to access the financial services it needs to run its economy and may lose up to $60 billion in energy investments due to global sanctions, US officials said Wednesday.

The officials told US lawmakers that United Nations-backed sanctions imposed over the summer are inflicting economic pain on Tehran and hampering its drive to develop nuclear weapons.

“With great regularity, major companies are announcing that they have curtailed or completely pulled out of business dealings with Iran,” Stuart Levey, US Treasury undersecretary for terrorism and financial intelligence, told the House of Representatives Committee on Foreign Affairs. There are some more conditions.

“And, as has been widely reported, Iran’s leadership appears to have underestimated the severity and effects of the global financial measures, giving rise to internal Iranian criticism and finger-pointing,” Levey added.

Levey said the sanctions were restricting Iran’s access to dollars and were the likely cause of a nearly 20 percent plunge in Iran’s rial currency in September, prompting weeks of intervention from Iran’s central bank to stabilize it.

A UN Security Council resolution calling for increased sanctions to curb Iran’s nuclear and missile activities paved the way for tougher US and European Union measures to cut off financial services and energy sector investment from Iran.

Undersecretary of State William Burns told the panel Iran may lose $50 billion to $60 billion in potential energy investments, along with critical technology and know-how from major international companies.

“Sanctions have hindered Iran’s development of a nuclear weapons capability and the means to deliver them, while making it harder for Iran to continue its destabilizing activities in the region,” he added in prepared remarks.

Seventeen Iranian banks are now blacklisted by most major financial centers and the United States has passed a law that effectively forces international financial institutions to choose between doing business with Iran or the US.

A few years ago, Iran was able to deal with the world’s largest and most prestigious banks, Levey said, but now it is “relegated to the margins of the international financial system, and is finding it increasingly difficult to access the large-scale, sophisticated financial services necessary to run a modern economy efficiently.”

Cell Phones May Cause Brain Cancer

Today cell phones have become a part and parcel of our daily life. A report issued by the International Electromagnetic Field Collaborative and endorsed by 43 scientists from 13 countries has reviewed the evidence linking cell phone use to brain tumors, and refuting the methodology of a forthcoming industry-funded study expected to give the phones a clean bill of health.

"I fear we will see a tsunami of brain tumors, although it is too early to see that now since the tumors have a 30-year latency," study author Lloyd Morgan said. "I pray I'm wrong, but brace yourself."

Among the research cited in the study was a recent study by a Swedish team of scientists that found a 420 percent higher risk of brain cancer among people who had started using cellular or cordless phones as teenagers. Older analog phones, which are now mostly off the market, had been found to increase cancer risk by 700 percent.

Because children are especially vulnerable to radiation, the report recommends that parents not allow their children under the age of 18 to use mobile phones except in emergencies, or to sleep with cellular phones under their pillows. It recommends using corded land lines whenever possible, and using cellular phones mostly as answering machines, turning them on only to check messages and return calls. Use of cell phones inside buildings or in cars increases cancer risk, as it increases the radiation a phone must emit to function. Use of text messages and non-wireless headsets can reduce cancer risk. The report also advises against carrying cell phones against the body, even in pockets.

"Some countries are already banning cell phones over health concerns, with France saying children in elementary schools can only use them for texting," Morgan said.

The report also sets out 11 flaws in the forthcoming Interphone study, a study on cell phones and health being prepared by the wireless industry in 13 different countries. These flaws include the exclusion of non-cellular cordless phones (which also emit radiation), children and young adults (the most vulnerable demographics) from the study, the exclusion of certain types of tumors, and the exclusion of participants who died or were too sick to answer questions.