A unique engineering achievement
The Falkirk Wheel in Scotland is the world’s first and only rotating boat lift. Opened in 2002, it is central to the ambitious £84.5m Millennium Link project to restore navigability across Scotland by reconnecting the historic waterways of the Forth & Clyde and Union Canals.
The major challenge of the project lays in the fact that the Forth & Clyde Canal is situated 35 metres below the level of the Union Canal. Historically, the two canals had been joined near the town of Falkirk by a sequence of 11 locks – enclosed sections of canal in which the water level could be raised or lowered – that stepped down across a distance of 1.5 km. This had been dismantled in 1933, thereby breaking the link. When the project was launched in 1994, the British Waterways authority were keen to create a dramatic twenty-first-century landmark which would not only be a fitting commemoration of the Millennium, but also a lasting symbol of the economic regeneration of the region.
Numerous ideas were submitted for the project, including concepts ranging from rolling eggs to tilting tanks, from giant seesaws to overhead monorails. The eventual winner was a plan for the huge rotating steel boat lift which was to become The Falkirk Wheel. The unique shape of the structure is claimed to have been inspired by various sources, both manmade and natural, most notably a Celtic double headed axe, but also the vast turning propeller of a ship, the ribcage of a whale or the spine of a fish.
The various parts of The Falkirk Wheel were all constructed and assembled, like one giant toy building set, at Butterley Engineering’s Steelworks in Derbyshire, some 400 km from Falkirk. A team there carefully assembled the 1,200 tonnes of steel, painstakingly fitting the pieces together to an accuracy of just 10 mm to ensure a perfect final fit. In the summer of 2001, the structure was then dismantled and transported on 35 lorries to Falkirk, before all being bolted back together again on the ground, and finally lifted into position in five large sections by crane. The Wheel would need to withstand immense and constantly changing stresses as it rotated, so to make the structure more robust, the steel sections were bolted rather than welded together. Over 45,000 bolt holes were matched with their bolts, and each bolt was hand-tightened.
The Wheel consists of two sets of opposing axe-shaped arms, attached about 25 metres apart to a fixed central spine. Two diametrically opposed water-filled ‘gondolas’, each with a capacity of 360,000 litres, are fitted between the ends of the arms. These gondolas always weigh the same, whether or not they are carrying boats. This is because, according to Archimedes’ principle of displacement, floating objects displace their own weight in water. So when a boat enters a gondola, the amount of water leaving the gondola weighs exactly the same as the boat. This keeps the Wheel balanced and so, despite its enormous mass, it rotates through 180° in five and a half minutes while using very little power. It takes just 1.5 kilowatt-hours (5.4 MJ) of energy to rotate the Wheel -roughly the same as boiling eight small domestic kettles of water.
Boats needing to be lifted up enter the canal basin at the level of the Forth & Clyde Canal and then enter the lower gondola of the Wheel. Two hydraulic steel gates are raised, so as to seal the gondola off from the water in the canal basin. The water between the gates is then pumped out. A hydraulic clamp, which prevents the arms of the Wheel moving while the gondola is docked, is removed, allowing the Wheel to turn. In the central machine room an array of ten hydraulic motors then begins to rotate the central axle. The axle connects to the outer arms of the Wheel, which begin to rotate at a speed of 1/8 of a revolution per minute. As the wheel rotates, the gondolas are kept in the upright position by a simple gearing system. Two eight-metre-wide cogs orbit a fixed inner cog of the same width, connected by two smaller cogs travelling in the opposite direction to the outer cogs – so ensuring that the gondolas always remain level. When the gondola reaches the top, the boat passes straight onto the aqueduct situated 24 metres above the canal basin.
The remaining 11 metres of lift needed to reach the Union Canal is achieved by means of a pair of locks. The Wheel could not be constructed to elevate boats over the full 35-metre difference between the two canals, owing to the presence of the historically important Antonine Wall, which was built by the Romans in the second century AD. Boats travel under this wall via a tunnel, then through the locks, and finally on to the Union Canal.
Nguồn: Cambridge IELTS 11
GIẢI THÍCH
| Đáp Án | Trích Dẫn | Giải Thích |
| 1. FALSE | Đoạn 2: “Historically, the two canals had been joined near the town of Falkirk by a sequence of 11 locks… This had been dismantled in 1933, thereby breaking the link.” | Câu hỏi nói “lần đầu tiên trong lịch sử” (for the first time). Tuy nhiên, bài đọc chỉ ra rằng hai kênh đã từng được nối với nhau trong lịch sử (had been joined) bằng 11 âu thuyền. Falkirk Wheel là dự án để khôi phục (restore) sự kết nối đó, không phải tạo ra nó lần đầu tiên. => Thông tin đối lập. |
| 2. NOT GIVEN | (Không có thông tin) | Bài đọc đề cập đến “numerous ideas were submitted” (nhiều ý tưởng được đệ trình) nhưng không hề nhắc đến việc có sự phản đối (opposition) nào đối với thiết kế được chọn hay không. Do đó, đây là thông tin “Not Given”. |
| 3. TRUE | Đoạn 4: “The various parts of The Falkirk Wheel were all constructed and assembled… at Butterley Engineering’s Steelworks in Derbyshire. In the summer of 2001, the structure was then dismantled and transported on 35 lorries to Falkirk.” | Bài đọc nói rõ các bộ phận được chế tạo và lắp ráp (assembled) tại nhà máy thép ở Derbyshire. Sau đó, nó mới được tháo rời (dismantled) và chuyển đến Falkirk. Điều này có nghĩa là nó đã được lắp ráp lần đầu tại nơi sản xuất, khớp với câu hỏi “initially put together at the location where its components were manufactured”. |
| 4. NOT GIVEN | Đoạn 4: “Over 45,000 bolt holes were matched with their bolts, and each bolt was hand-tightened.” | Bài đọc xác nhận các bu-lông được siết bằng tay (hand-tightened). Tuy nhiên, không có thông tin nào so sánh hoặc khẳng định đây là cơ cấu nâng thuyền duy nhất trên thế giới làm theo cách này. Vì vậy, đây là thông tin “Not Given”. |
| 5. FALSE | Đoạn 5: “These gondolas always weigh the same, whether or not they are carrying boats. This is because, according to Archimedes’ principle of displacement, floating objects displace their own weight in water.” | Câu hỏi nói trọng lượng gondola “thay đổi” (varies) theo kích thước thuyền. Bài đọc khẳng định ngược lại: chúng “luôn có trọng lượng như nhau” (always weigh the same) và giải thích rõ nguyên lý khoa học đằng sau điều đó. => Thông tin đối lập. |
| 6. TRUE | Đoạn 7: “The Wheel could not be constructed to elevate boats over the full 35-metre difference between the two canals, owing to the presence of the historically important Antonine Wall, which was built by the Romans…” | Câu hỏi nói việc xây dựng đã “tính đến sự hiện diện” (took into account) của một di tích cổ. Bài đọc giải thích lý do thiết kế của bánh xe không nâng thuyền lên toàn bộ độ cao 35m là “do sự hiện diện” (owing to the presence) của bức tường Antonine – một di tích lịch sử. Điều này chứng tỏ họ đã phải tính toán thiết kế để bảo tồn di tích. |
| 7. gates | Đoạn 7: “Two hydraulic steel gates are raised, so as to seal the gondola off from the water in the canal basin.” | // |
| 8. clamp | Đoạn 7: “A hydraulic clamp, which prevents the arms of the Wheel moving while the gondola is docked, is removed, allowing the Wheel to turn.” | // |
| 9. axle | Đoạn 7: “In the central machine room an array of ten hydraulic motors then begins to rotate the central axle.” | // |
| 10. cogs | Đoạn 7: “Two eight-metre-wide cogs orbit a fixed inner cog of the same width, connected by two smaller cogs travelling in the opposite direction to the outer cogs – so ensuring that the gondolas always remain level.” | // |
| 11. aqueduct | Đoạn 7: “When the gondola reaches the top, the boat passes straight onto the aqueduct situated 24 metres above the canal basin.” | // |
| 12. wall | Đoạn 8: “ …Antonine Wall,which was built by the Romans in the second century AD.Boats travel under this wall via a tunnel, then through the locks, and finally on to the Union Canal.” | // |
| 13. locks | Đoạn 8: “The remaining 11 metres of lift needed to reach the Union Canal is achieved by means of a pair of locks.” | // |
