About VALAND

VALAND Industrial Corporation has been a dedicated specialist in fluid & gas control sector since 1992. The company employs team of veteran engineers concentrating on the development and innovation of fluid and gas flow products in application to extensive range of basic to sophisticated operations. Known for cutting-edge techniques and total commitment to quality, the company acquired TUV ISO 9001 & CE certificates, an assurance of fulfillment of international quality standards. The products incorporate a wide selection of valves in stainless steel and automation accessories for domestically and overseas commercial, industrial uses. Furthermore, requests for custom-made valves or related parts with your own design and specification, as well as projects in need of insightful and efficacious flow solution are welcome. Our goal is to design and produce superior quality products as the effective, quick solutions for your first choice, meet highest level of customer satisfactions by our insider expertise and stand out as a highly competent partner you can count on.

PRODUCT SPECIFICATIONS: Working Pressure: Vacuum-1000psi End connection: Require Working Temperature: -30F-400F Size: 1/4”-4” (DN10-DN100) Blow-Out Stem Design Material: CF8M/WCB Special require acceptable OEM Products welcome

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CAD Drawing (200 KB) 　 　 　 　 　 VL-401 2 Piece Body, Full Port Size Range: 1/4" ~ 2" Material: Stainless Steel ( Carbon Steel Available ) Shell: ASTM A-351 Grade CF8M ( 1.4408 ) Ball: SS316 Stem: SS316 Seat & Seal: PTFE End Connections: Threaded Operation: Manual Temperature Range: -50 F° to +450 F° ( -46 C° to +232 C° ) Pressure Range: 1000 WOG / PN 63 ( CWP ) Features: Investment Cast Component Blow-out-proof Stem Adjustable Packing Gland

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial Corporation. All Rights Reserved.

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CAD Drawing (226 KB) 　 　 　 　 　 VL-501B 3 Piece Body, Full Port, Butt Weld Size Range: 1/4" ~ 4" Material: Stainless Steel ( Carbon Steel Available ) Body: ASTM A-351 Grade CF8M ( 1.4408 ) Ball: SS316 Stem: SS316 Seat & Seal: PTFE End Connections: Butt-Welding Operation: Manual Temperature Range: Pressure Range: 1000 WOG / PN 63 ( CWP ) Length in Accordance with DIN3202-S13 Features: Investment Cast Component Blow-out-proof Stem Adjustable Packing Gland Swing-out Design for Easy On-line Maintenance Options: Locking Device: SS304

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial Corporation. All Rights Reserved.

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CAD Drawing (207 KB) 　 　 　 　 　 K-301L 3 Way, Standard L-Port, Threaded Size Range: 1/2" ~ 4" Material: Stainless Steel ( Carbon Steel Available ) Body: ASTM A-351 Grade CF8M Ball: ASTM A-351 Grade CF8M Stem: SS316 Seat: PTFE End Connections: BSP / NPT Threaded Operation: Manual Temperature Range: Pressure Range: 1000 WOG ( CWP ) Features: Investment Cast Component Blow-out-proof Stem Adjustable Packing Gland Swing-out Design for Easy In-line Maintenance

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial Corporation. All Rights Reserved.

CAD Drawing (0 KB) 　 　 　 　 　 GT-200 Gate Valve Size Range: 1/2" ~ 2" Material: Stainless Steel Body: ASTM A-351 Grade CF8M Solid Wedge Disc: ASTM A-351 Grade CF8M Non-rising Stem: SS316 Seat & Seal: PTFE End Connections: BSP, NPT, DIN2999 Threaded Operation: Manual Temperature Range: Pressure Range: 200 PSI Features: Investment Cast Component

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial

CAD Drawing (0 KB) 　 　 　 　 　 GB-200 Globe Valve Size Range: 3/8" ~ 2" Material: Stainless Steel Body: ASTM A-351 Grade CF8M Disc: ASTM A-351 Grade CF8M Rising Stem: SS316 Seat & Seal: PTFE End Connections: BSP, NPT, PT, DIN2999, ISO 228-1 Threaded Operation: Manual Temperature Range: Pressure Range: 200 PSI 　 Features: Investment Cast Component

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial Corporation. All Rights Reserved.

CAD Drawing (0 KB) 　 　 　 　 　 SW-200 Swing Check Valve Size Range: 1/2" ~ 2" Material: Stainless Steel Body: ASTM A-351 Grade CF8M Disc: ASTM A-351 Grade CF8M Seat & Seal: PTFE End Connections: BSP, NPT, PT, DIN2999, ISO 228-1 Threaded Operation: Manual Temperature Range: Pressure Range: 200 PSI Features: Investment Cast Component

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial Corporation. All Rights Reserved.

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CAD Drawing (162 KB) 　 　 　 　 　 005 3 PC Full Bore Ball Valve , Butt-Welding Type 3 Piece Bodies, Full Port Stainless Steel/ Carbon Steel Size: 1/4" (DN8) through 4"(DN100) Features: Investment Cast Components Blow-out-proof Stem Design Adjustable Packing Gland SS Lever, Bolt and Nut V-ring Design Stem Packing Swing-out for Easy to In-line Maintenance Cavity-fillers Available Pressure Ratings: 1000 psig WOG, Cold, Non-shock (70 bar) 150 psig Saturated Steam (8.7 bar) Temperature Range: -50(-46?) to +450? (+232?)

----------------------------------------------------------------------------------------------- c 2006 VALAND Industrial Corporation. All Rights Reserved.

Export Main Markets:

U.S.A.: 45%

Europe: 42%

Japan: 10%

Australia: 3%

Raw Material and Casting Suppliers:

China: 50%

Taiwan: 50%

2003 Turnover:

US$5,000,000

Gross Profit:

To Whole Seller and Importer: 25%

To Distributor: 50%

To End User: 100%

2003 Monthly Capacity:

20,000pcs.

Valand Exclusive Product at Taiwan:

Application for Pharmaceutics: Material of Ferrite is less of 1 percentage and it can control magnetic element to avoid any explode. Valand now only can make primary production due to without machinery and installment. Europe buyer will disorganize the ball valves when they will receive shipment. And they will make proceeding including disinfect, electro-polish, at clean room. After re-assembly, ball valves will be tested again and get certificate to End User. The price to End User will be 10 times than Free on Board of Taiwan.

Valand RD Proceeding:

Seat parts: To develop metal to instead of PTFE.

Application to Pharmaceutics at USA (the top three valve manufacturers): To develop bar stock material.

Valand Expected Monthly Capacity and Turn Over:

Year 2005:

Monthly Capacity: 20,000pcs. (If machinery and installment for Ferrite less of 1% can be set up)

Turn Over: US$10,000,000

Year 2006:

Monthly Capacity: 23,000pcs.

Turn Over: US$12,500,000

Year 2007:

Monthly Capacity: 30,000pcs.

Turn Over: US$20,500,000

Expected to having 50%-75% growth in the following series years.

A Valve is a product rarely noticed by the average person, yet it plays　an important role in the quality of our life.　 Each time you turn on a　water　faucet, use your dishwasher, turn on a gas range, or step on the　accelerator of your car, you operate a valve.　 Without modern valve　systems, there would be no fresh pure water or automatic heat in your home.　 There would be no public utilities, and beyond wood and coal,　almost no energy of any kind.　 Plastics would be unheard of, as would many inexpensive consumer products.

By definition, a valve is a device that controls the flow of a fluid.　　Today's　valves can control not only the flow, but the rate, the volume,　the pressure or the direction of liquids, gases, slurries or dry materials　through a　pipeline, chute or similar passageway.　They can turn on and　turn off,　regulate, modulate or isolate. They can range in size from a　fraction of　an inch to as large as 30 feet in diameter and can vary in　complexity　from a simple brass valve available at the local hardware　store to a　precision-designed, highly sophisticated coolant system　control valve,　made of an exotic metal alloy, in a nuclear reactor.

Valves can control flow of all types, from the thinnest gas to highly corrosive chemicals, superheated steam, abrasive slurries, toxic gases and radio active materials.　 They can handle temperatures from cryogenic region to molten metal, and pressures from high vacuum to thousands of pounds per square inch.

The valve is one of the most basic and indispensable components of　our modern technological society.　 It is essential to virtually all　manufacturing processes and every energy production and supply system.　 Yet it is one of the oldest products known to man, with a　history of thousands of years.

Valve bodies and components are produced in a wide variety of materials, including brass, bronze, iron, steel, stainless steel, and many exotic alloys. Teflon, as well as other fluorocarbons and elastomers, are also used for valve seats and trims. In addition, plastic valves are used in special applications. Nearly every valve made in the United States meets the quality standards recommended by one or more national and/or international standards organizations. Standards are written only after careful study and open-forum debate. Quality control encompasses design, materials, inspection tests, and usage limitations. Although there is no one universal valve standard, there are several codes, regulations, and standards that apply to large segments of the valve industry.

Major worldwide markets serviced by the U.S. and Canadian valve industry include:

CHEMICAL AND PETROCHEMICAL

When buying valves, price is only one of many factors to consider before making a decision. To gain maximum value, however, it is important to examine the cost over its life cycle. Manufacturers appearing in this Sourcebook are experienced, high-quality firms that understand the importance of value in designing and producing their products. They know that it's best to look at the big picture in seeking a quality valve product.

LONG PRODUCT LIFE

Always consider the cost of ownership over the life cycle of the product. Total cost of ownership includes repair labor, downtime costs, the amount of time between maintenance, and the cost of replacement parts.

DESIGN FLEXIBILITY

Look for manufacturers who are willing to consult with you on special design options and develop or alter a product to meet your needs. Expect a manufacturer of your choice to match the safety performance of their products to your industry requirements, including rigorous testing procedures to assure a safer product.

STRICT ADHERENCE TO YOUR SPECIFICATIONS

Valves that don't comply with your required specifications can result in significant production or project delays. Meeting physical dimensions is only one aspect of adherence to specifications. Others include meeting industry materials and internal specifications. Cost of expensive downtime due to poorly specified valves will offset any small price savings that might be offered by cutting corners. Don't lower your standards. Refer to the "Valve Specifying Checklist" that follows before discussing your needs with a manufacturer's representative.

ON-TIME DELIVERY AND FAST SHIPMENT OF PARTS

Purchase valves from manufacturers who offer you accessibility, meet your deadlines, and can fulfill your emergency requirements.

FACTORY-TRAINED SERVICE STAFF AND LONG-TERM WARRANTIES

A solid warranty and factory-trained service staff means you're covered on required repairs. Consider location as a practical aid in a manufacturer's ability to meet delivery deadlines and the accessibility to factory-trained service engineers when they are needed.

ACCESSIBILITY

Service, availability of field engineers, on-time delivery, and fast shipment of a replacement part depend on how accessible a valve manufacturer will be. Look for valve manufacturers that go out of their way to make themselves accessible to you.

QUALITY PRODUCT

Product performance is the bottom line. Valve manufacturers know that to win your business they must build quality into their products-into materials, specifications, safety features, parts, delivery, and service.

Use this list as a guide in making an important valve purchase. Knowing these criteria will help the valve manufacturer or its distributor to design and/or select the best valve for your particular application.

APPLICATION

„h Media being handled, e.g., liquid, gas, slurry, or solid

„h Corrosiveness of media, e.g., pH, concentration

„h Corrosiveness of atmosphere

„h Flow (velocity, capacity, Cv, direction)

„h Pipe size

„h Media temperature (maximum to minimum)

„h Pressure: maximum operating pressure; maximum differential pressure

„h Operation: e.g., manual/automatic, on-off throttling

„h Installation constraints

„h Envelope dimensions

„h Weight

„h Accessibility

„h Conformance to appropriate standards, e.g., API, AWWA, ANSI, FM, UL, OSHA, etc.

„h Tightness of shutoff required