for the Urban Transport Problems
Ch 7. Financing Transport Infrastructure Development
7.1 Securing Government Revenue
Government expenditures on transport have been steadily increasing. The increase rate is quite different depending on the country. In developing countries, the increase rate is quite high, while in developed countries it is not. The largest revenue source for the transport is the motor fuel tax. This is the case in developing countries as well as in developed ones. The taxes are usually levied on gasoline, diesel, and LPG. They are levied not only by the federal/central government but also by the provincial/state and local governments.
Government Revenues from Transport in the USA
Unit: million dollars
|
90
|
91
|
92
|
93
|
94
|
Highway
Federal Highway Trust Fund
State
Motor fuel taxes
MV license taxes
MV operator license taxes
Reg. & toll highway charges
Sub-total
Local
Motor fuel taxes
MV license taxes
MV operator license taxes
Reg. & toll highway charges
Parking charges
Sub-total
Sub-total
|
13,453
19,379
9,848
827
2,590
32,644
664
769
1
1,559
854
3,847
49,945
|
15,303
20,639
10,131
865
2,826
34,461
677
784
2
1,687
924
4,074
53,838
|
16,572
22,250
10,660
1,014
3,004
36,928
694
828
2
1,744
970
4,238
57,738
|
16,864
23,568
11,502
1,017
3,061
39,148
676
896
2
1,864
993
4,431
60,443
|
15,414
24,490
11,835
1,058
3,174
40,557
712
927
2
2,034
1,078
4,753
60,724
|
Transit
HTF Transit Account
State transit charges
Local transit charges
Sub-total
|
1,977
1,074
4,142
7,193
|
3,149
1,123
4,506
8,778
|
1,816
1,126
4,616
7,558
|
2,735
1,145
4,683
8,563
|
2,691
1,218
5,039
8,947
|
Air
Sub-total
|
10,119
|
11,924
|
11,787
|
12,706
|
13,101
|
Water
Sub-total
|
2,635
|
2,860
|
3,099
|
3,297
|
3,179
|
Pipeline
Sub-total
|
10
|
11
|
14
|
15
|
19
|
Total
|
69,901
|
77,411
|
80,199
|
85,034
|
85,978
|
Source: Bureau of Transportation Statistics, U.S. DOT, Federal, State, and Local Transportation Financial Statistics
For example, in the U.S. the uniform tax rate is levied on fuels by the federal government. The federal tax rate on gasoline in the U.S. was 4.0 cents per gallon, effective from 1979. As of October 1, 1993, it was increased to 18.4 cents per gallon, of which 6.8 cents have been allocated to the general fund for national debt reduction. The remaining funds go into the Highway Trust Fund (HTF) of the federal government. The most of HTF revenues are derived from various excise taxes on highway users, i.e. motor vehicles, tires, and parts, and accessories for trucks and buses. Apart from the tax by the federal government, additional tax is levied on gasoline by the state and local governments. The additional tax rate by the state government is different between states. As of March 1, 1998, the highest tax rate of 36 cents per gallon is levied in the Connecticut State, the lowest tax rate is 8 cents in Alaska, and the mean is 19.94 cents. Similar tax rates are levied on diesel. As of March 1, 1998, the federal tax rate on diesel was 24.4 cents per gallon, and the mean state tax rate on diesel was 19.86 cents. As far as LPG and gasohol are concerned, a somewhat lower federal tax rate is levied, 13.6 cents and 13.0 cents per gallon, respectively. Some states no longer levy taxes on LPG or gasohol. The ratio of revenue from highways to expenditure on highways in the U.S. is about 0.8%. Since some of the Highway Trust Fund is reserved and used for public transit, the revenue/expenditure for highways becomes slightly more than 0.85%. The difference between the revenues and expenditures is made up by the general account. The ratio of revenue to expenditure in the central government is more than 120%. This implies that remaining revenues from highways after highway expenditures are used for other transport infrastructures.
Canada has a tax scheme similar to that in the USA. Transport user license and registration fees, which are primarily from motor vehicles, and fuel excise taxes are imposed independently by federal and provincial governments. Fuel tax revenues continued to rise through the years, as fuel use rose rapidly, especially with federal fuel tax rate increase in 1995.
Government Revenues from Transport in Canada
Unit: million Canada dollars
|
91/92
|
92/93
|
93/94
|
94/95
|
95/96
|
Federal fuel taxes
|
3,294
|
3,335
|
3,547
|
3,721
|
4,353
|
Provincial/Territorial
Fuel taxes
License fees
|
4,431
2,303
|
4,979
2,410
|
5,222
2,609
|
5,436
…
|
…
…
|
Total
|
10,028
|
10,724
|
11,378
|
…
|
…
|
Source: Transport Canada , Transportation in Canada 1996: Annual Report
In Japan and Korea, the taxes are levied on fuels only by the central government. In Korea, as of November 1, 1998, the gasoline tax rate was 691 Won per liter, which was almost three times of the maker’s price. On the other hand, the diesel tax rate was 160 Won per liter, about 62% of the maker’s price. Accordingly, the consumer price of diesel is about 40% of that of gasoline in Korea. There are several other vehicle-related taxes; a vehicle tax, a vehicle operator license tax, excise taxes on vehicles and tires, additional excise taxes on heavy goods vehicle. Out of these taxes, the vehicle tax revenue occupies a large portion of local government tax revenue.
Government Revenues for Transport in Korea
Unit: billion Won
|
95
|
96
|
97
|
Highway
Motor fuel taxes
MV excise taxes
Others
Sub-total
|
2,627
719
2
3,349
|
3,103
855
209
4,167
|
4,027
958
178
5,163
|
Railways
Motor fuel taxes
MV import taxes
Others
Sub-total
|
883
104
194
1,181
|
894
170
227
1,291
|
1,086
179
312
1,576
|
Air
Sub-total
|
365
|
448
|
613
|
Marines
Sub-total
|
490
|
625
|
931
|
Total
|
5,384
|
6,531
|
8,282
|
Source: Annual Report; Transport in Korea 1997, Ministry of Construction and Transportation, Korea
7.2 Efficient Expenditure for Transport
Another important issue with respect to the government revenues from transport is in what ways the revenues are used. This is also related to whether the revenues are dedicated to the expenditure of a specific mode. In many countries, much of the fuel tax revenues are used for the highways. In some countries, they are deposited into the general account and the funds are used more for other purposes, not for transport.
In the U.S., the federal motor fuel tax revenues, except for some proportion for national debt reduction, are dedicated to the Highway Trust Fund (HTF). A small proportion of the HTF, about 1.5 cent of the federal gasoline tax, is set aside for transit in the Mass Transit Account of the HTF, and most of it is used for highway expenditure of the state and local governments through federal funds. The state government plays a dominant role in the management of non-interstate highways. They are mostly financed with their own motor fuel tax revenues. Federal funds are also provided to state governments through the Federal Aid Highway program. The program is matched with contributions from the state, usually at 80-20 ratio. The funds are allocated to states based on the formulae that take into account population, area, mileage of highways, needs, and prior share of federal funds.
Local governments play a role in constructing and maintaining local roads and public parking facilities. Unlike state governments, even if local governments have their own motor fuel tax revenues, they finance only a small portion of highway expenditures. With the federal funds granted from upper level governments, local governments finance with special assessments and property tax revenues. These revenues are put together with other local revenues in a general account.
In Canada, most of government revenues derived from transport activities are not specifically dedicated to the expenditures for that sector. Instead, they are deposited into the Government Consolidated Revenue Fund. The motor fuel tax revenue is an important source of general government revenue and it is not directly allocated to the transport sector.
In Japan, on the other hand, some pre-determined distribution rules exist for vehicle-related tax revenues. For example, three fourths of the central government’s gasoline tax revenue are used for national highways and remaining one fourth of them for provincial and local highways. All of the diesel tax revenue are deposited to the general account of provincial and local governments, and used for provincial and local highways.
In Korea, slightly different rules are applied. The gasoline and diesel tax revenues are dedicated to the special account for transport infrastructure. It is allocated only for highways and railways, including urban railways. On the other hand, revenues from the vehicle excise tax, vehicle registration tax, vehicle license tax, and road tax are deposited into the general account of provincial governments. Despite of vehicle-related tax revenue, the local governments have been facing the shortage of funds for transport development.
In Brunei, Hong Kong of China, and Singapore, heavy taxes are levied on passenger cars. Because, however, there is no big demand for highway investment, since available land for highways is not enough, these tax revenues is deposited into the general account, not dedicated to highway expenditures.
Railways are very important in solving urban traffic congestion. Particularly, in large metropolitan areas, the role of suburban railways is very significant since the travel demand is so big that it is not possible to handle them only with highway systems. Many cities in the APEC region have tried to build or improve urban rail facilities. Main problem is how to finance the huge construction cost of railways. In general, the central and local government subsidies are granted for the construction. Particularly, when a new line is to be built, it is general that much of the construction cost are granted or subsidized from the federal/central government which is financed from the road users through fuel tax revenues, etc. For example, in the U.S., some proportion of the Highway Trust Fund is set aside for transit in the Mass Transit Account. This consists of 30% out of total 1994 transit revenues. In Korea, 20% of the central government revenues from motor fuel tax and special excise tax were allocated to the railway expenditures in 1997.
In case of urban metros, even though the central government grants subsidies from 30 to 50% of construction cost in most countries, financing problems are often very serious, particularly in developing countries. For the remaining construction cost, it is general that the very local government levies some specific taxes for certain limited periods. For example, some US cities levy additional sales taxes for urban metro construction.
Another way to solve the financing problem in building railways is to resort to the capital of private sectors. However, it is more difficult to induce private sectors for railways than for roads, mainly because the construction cost of railways is much greater than that of the road and the profits from railway operation are not guaranteed for short-term period.
7.3 Private Financing for Transport Infrastructure
Because many APEC countries have had difficulties in financing transport infrastructures, private sector participation is thought to be one alternative to solve this problem. Since some countries have been experiencing successes in doing so, it is quite worthwhile to review best practices and learn the lessons.
Hong Kong has a long history of private sector participation. The first case was the Cross Harbor Tunnel in Hong Kong, which was opened in 1969. Then, there was a private sector participation in building Eastern Harbor Crossing Tunnel and Tate‘s Cairn Tunnel. The most recent project was Western Harbor Crossing Tunnel opened in April 1997, and Country Park Section of Route 3 currently under construction. As far as the toll roads are concerned, Malaysia and Indonesia have had many experiences since the mid-1980s. However, most of these were inter-city roads, and only a few of them were urban roads. Other examples of urban toll roads can be found in the Melbourne City Link in Australia, Northumberland Strait Crossing Bridge in Canada, Metro Manila Skyway in the Philippines and New Airport Expressway in Korea.
While there are some cases in which the private sector built highways despite of the difficulties, cases in which the private sector has built urban railways are rare. Though there are a few cases where railways have been under construction by the BOT scheme, all of them have been experiencing many difficulties. The main reason is that it costs too much in building railways, particularly when they are underground systems.
We can see typical cases in Bangkok, Thailand. One is the 23km Bangkok Transit System, which was to be opened at the end of 1999. Another is the 60km Bangkok Elevated Road and Rail Transit System, where the existing railway‘s right-of-way has been used. In both cases, they are at-grade railways of which the construction cost is not too high. The private concessionaires have been chosen through the BOT method. On the other hand, for the 20 km Metropolitan Rapid Transit System, which is a wholly underground railway, the construction work has being done by the government. The private concessionaires supply the control, power and rolling stock, then they are given the right to operate it. There is another case in Manila, the Philippines. A 17.8km light rail transit was constructed by a private consortium on the Build-Lease-Transfer (BLT) system. Aside from guaranteeing the lease payments, the government granted 14 hectares of real estate for use as depots and 17 hectares of air space.
7.4 Risk Sharing Arrangement
A risk in a project is defined as the possibility that something bad or unwanted may happen in the process of the project. In general, the more the project costs and takes long time, the higher the risk of the project becomes. Since a transport infrastructure development project needs much cost and takes long periods generally, it has a high risk and, accordingly, the risk management is very important for the successful promotion of the project, especially for the private company.
A recent paper presented by the Hong Kong Government at the APEC Roundtable suggested a package of risk sharing arrangement as follows, typically relating to the toll highway projects, based on their experiences of private projects31.
-
Government to take the risk of completing the necessary statutory/administrative processes in time to hand over the land to the franchisee to proceed with construction of the project.
-
The franchisee to shoulder all market risks, with no financial or any other form of guarantee from Government. The financial risks of cost overrun and late completion will also be borne by the franchisee.
-
For events causing delay to construction which are genuinely outside the control of the franchisee, the risks are shared between government and the franchisee through an extension of the construction/franchise period.
-
The franchisee is given the comfort of the prospect of a reasonable return on his investment through the toll adjustment formula, which sets out the objective criteria for determining toll increases during the entire franchise period.
-
The franchisee can spread his risks under contractual arrangements with his construction contractor and the operator.
A pro-active government role is to ensure:
-
Effective coordination between relevant government departments to assist the franchisee in meeting his contractual obligations
-
A level playing field for investors through the establishment of a clear and open tendering system
-
A clear contractual and legal framework to reduce business risks and at the same time protect the interests of government and road users
One good example of relevant law for the private financing can be found in the Philippines. The first law was enacted in 1990, Republic Act No. 6957, entitled as Act Authorizing the Financing, Construction, Operation and Maintenance of Infrastructure Projects by the Private Sector, and for Other Purposes. It was amended as Republic Act No. 7718 in 1993. This defines details about private sector participation in infrastructure. Many concepts of private sector participation except for Build-Operate-and-Transfer have been defined in this Act. For example, Build-and-Transfer, Build-Own-and-Operate, Build-Lease-and-Transfer, Build-Transfer-and-Operate, Contract-Add-and-Operate, Develop-Operate-and-Transfer, Rehabilitate-Operate-and-Transfer, Rehabilitate-Own-and-Operate have been conceptualized. More detailed contents can be found in the Republic Act No. 7718 and Its Implementing Rules and Regulations, published by the Philippine government.
7.5 Case Study 1: 4 Large Projects with Private Sectors in the Philippines
Manila has been experiencing serious traffic congestion. So the Government has planned some large transport infrastructure projects, encouraging the private sector to participate in them. There are four large transport projects being implemented with the involvement of private sectors. These are: (1) the Metro Manila Skyway by the Philippine National Construction Corp. (PNCC) and the Indonesian-backed Citra Metro Manila Tollways Corporation; (2) the Manila-Cavite Expressway by the Public Estates Authority (PEA) and Renong Berhad; (3) the ‘Pabahay sa Riles’ Tollway by the Philippine National Railways(PNR) and San Jose Builders Inc.; (4) the Light Rail Transit line 3 by the Metro Rail Transit Corp.
As far as the above mentioned three toll road projects are concerned, they have been pursued as joint venture agreements with government-owned corporations, i.e. PNCC, PEA and PNR. This might mean that the private sectors could mitigate the project risks. However, this might also mean that no open tendering process was done. So it was doubtful that government has gotten the most advantageous proposals.
The Metro Manila Skyway project was to construct a 5-lane 30.4km elevated expressway. Construction work began in March 1996. The Manila-Cavite Expressway is to build a 4 to 6 lane freeways. It includes upgrading and extending existing roads as well. The ‘Pabahay sa Riles’ (literally housing over the rail tracks) project is to build an elevated toll road over the air space of the existing railway of PNR. It also builds housing units for squatters currently occupying the side of the rail tracks.
Different from the above toll roads, the 17.8km Light Rail Transit Line 3 has been promoted by a private consortium on the Build-Lease-Transfer (BLT) way. The contract was awarded to EDSA LRT Corporation in 1991. It was later acquired by a new set of investors led by realty developers, who formed Metro Rail Transit Corporation. The original plan was to build an at-grade level rail track with a cost of at US$350 millions. However, after several design changes, the cost was increased to US$ 498 millions. Then it was estimated in 1997 that the cost would increase to more than US$700 millions. Aside from guaranteeing the lease payments, the government granted real estate for use as depots and air space. A French consortium composed of Sofretu, Javlon Enterprises had submitted an unsolicited proposal for the construction of Light Rail Transit Line 4, which is a fully elevated rail of 18.35km. It is said that the proposal is being evaluated by the government.
7.6 Case Study 2: Financing the MRT Lines in Thailand
Bangkok has been notorious for serious traffic congestion. To relieve the congestion, the Bangkok Government has made massive transport infrastructure development plans. But the problem was how to finance these plans. One solution has been to make the private sector participate in these plans. Actually the private sector in Bangkok has been heavily involved in building and operating railway lines and expressways over almost 7 years.
As far as the MRT lines are concerned, Bangkok has made some extensive plans. The MRT would be developed in three stages. The first stage is to build 5 lines of 86km. All of them are under construction. The second and third stages are to extend the above five lines to 176km and to build another new line of 33km. If the third stage be finished, the total length of lines would reach 277km.
The private sector has already been involved in the first stage plans of 86km. These plans are classified into three projects. The terms and conditions between private sectors and Government for its progress are quite different depending on the project. The fastest progressing project is the Green line of 24km, which is called the Bangkok Transit System. It is an elevated system with two lines and it connects the inner business districts of Bangkok. Since there is no underground section, the construction cost is not relatively high. It was estimated at US$ 1.3 billion. It is a BTO(Build-Transfer-Operate) project under the auspices of the Bangkok Metropolitan Authority. The private concessionaire was given the right to operate for 30 years after the completion of construction. Construction work began in 1995 and it was originally scheduled to open at the end of 1998, but delayed in some reasons.
Another BTO project is the Red line of 60 km, the Elevated Road and Rail Transit System. It is a system of combined railways, roads and commuter trains along the State Railway of Thailand’s right-of-way stretching from the northern suburb of Bangkok into the city and to the eastern, southern and western suburbs of Bangkok. The concession asked to build a system of local roads and toll roads at grade along most part of railway lines. It gave the developer a right to develop property under the elevated routes, and stations as well as more than 1 km2 of land. The cost of project was estimated at about US$4.8 billion. The project was granted to Hopewell (Thailand) Co. Ltd. in 1991 for 38 years. It was first scheduled to complete two major sections of 43km by early 1998. However, it has been seriously behind schedule and the Hopewell Group has asked to delay its original completion date. It has also been seeking government aid, higher fares and tolls, a much longer concession period and removal of several key project elements.
The last project is the Blue line of 20 km, which is called the Metropolitan Rapid Transit System. Different from the previous two elevated railways, it is a wholly underground railway. So the construction cost is very high. This means that the private sector cannot take the whole responsibility for its finances. So the construction work has being done by the Government and it is scheduled to open in 2002. The private concessionaire will supply the control, power and rolling stock, and then will be given the right to operate it. The Government will turn over the underground stations, tunnels and depot to the concessionaire for his use during the concession period. The concessionaire will equip the system, run trains, collect revenues, maintain it safely and turn it over to the Government in good order at the end of the concession period.
Ch 8. Integration of Land-Use Planning and Transport Policy
8.1 Approach to Integrated Land-Use and Transport Policy
Urban transport problems cannot be solved by the traditional methods using individual policies without linking land-use to transport policies. The traditional method expands transport space and increases the car-ownership/usage rate. A wide range of agreement is being reached regarding the need for a new approach to problem solving. The approach is an integrated model of land-use and transport based on the sustainable development concept, and the main targets are as follows :
-
Decrease of travel demand
-
Decrease of auto-dependence rates
-
Choice of energy-efficient transport modes
-
Fundamental reduction in auto emission gases and noise
-
Efficient use and maintenance of automobiles for energy saving and pollution reduction
Specific policy instruments to attain such targets are diverse, and their relevance differs from level to level of governments. An ECMT(European Conference of Ministers of Transport) report presents such various policy instruments by classifying as shown in , and the key policy instruments are as follows :
-
Land-use planning and development control policies
-
Pricing policies, affecting the use of fuel, car purchase, modal choice, etc.
-
ITS Technology to raise the efficiency of urban travel systems and promote shift from car to other modes
-
Commuter transport planning to reduce peak traffic flows
-
Public transport upgrade policies to increase the efficiency and attractiveness
-
Policies for pedestrians and cyclists
-
Policies to suit logistics to urban conditions
8.2 Package of Options for Integrated Land-Use/Transport System
The OECD/ECMT presented the following 3 policy packages as alternatives of the integrated policy of land-use/transport (ECMT, 1995).
-
Strand 1: Best Practices
A policy package consisting policy instruments which were previously attempted and are widely recognized as effective.
Policy Instruments For Sustainable Development
|
Level of Government Responsible for Implementation
|
Local
|
Nation
|
International
|
Land-Use Management
|
|
|
|
Urban containment
|
+
|
+
|
|
Mixing land use
|
+
|
|
|
Density standards
|
+
|
|
|
Parking standards in commercial and residential areas
|
+
|
|
|
Car-free zones
|
+
|
|
|
Location of park and ride sites
|
+
|
|
|
Promoting city-centre development
|
+
|
|
|
Road Traffic Management
|
|
|
|
Bypassing sensitive areas
|
+
|
+
|
|
Priorities for bus, tram and HOVs
|
+
|
+
|
|
Segregated rights of way for transit
|
+
|
+
|
|
Commuter planning
|
+
|
+
|
|
Telematics standard and application
|
+
|
+
|
+
|
Traffic calming
|
+
|
+
|
|
Cycle lanes and path
|
+
|
|
|
Pedestrian facilities
|
+
|
|
|
Casualty reduction targets
|
|
+
|
|
Lower speed limits and enforcement
|
+
|
+
|
|
Environmental Protection
|
|
|
|
Vehicle noise and emission standard/target
|
|
+
|
+
|
Lower fuel consumption goal for car and trucks
|
|
+
|
|
In-use vehicle inspection standard
|
|
+
|
+
|
Noise screening
|
+
|
+
|
|
Noise minimising road surface
|
+
|
|
|
Maximum allowable traffic levels for residential and shopping streets
|
|
+
|
|
Pricing Mechanisms
|
|
|
|
Carbon taxes
|
|
+
|
|
Vehicle purchase tax/annual licence fee
|
|
+
|
|
Fuel duty
|
|
+
|
|
Parking charges
|
+
|
|
|
Transit pricing (subsidy policy)
|
+
|
+
|
|
Urban road tolls
|
+
|
|
|
Congestion pricing
|
+
|
+
|
|
Source: ECMT (1995) P.148
-
Strand 2 : Innovative Policies
A policy package consisting policy instruments which were not fully verified on their effect, but are expected to produce effect to a certain degree, considering previous application cases.
-
Strand 3 : Sustainable Development Policies
A policy package consisting of new and innovative policy alternatives by which a sustainable urban development concept is differentiable from others. The main aim is to reduce the use of automobiles, fuel consumption, and various emission gases.
More specific contents of each package are quoted in the following section.
8.2.1 Strand 1: Best Practices
Land-Use management
Current best practices in land-use management involve:
-
To limit the spread of cities to keep up residential densities and protect open land;
-
To steer offices and shops to city centers or other locations that are well served by public transport;
-
To limit the amount of car commuting to new office developments by imposing low maxima on the number of car parking space that can be provided;
-
To increase the supply of city-center and inner-city homes, as in Portland, Oregon;
-
To shift the supply of parking from central and inner districts to suburban and exurban park- and-ride interchanges, as Oxford, UK; and
-
To reserve locations for freight distribution close to the existing transport network (whether rail, water or road).
Road traffic management
Best practice involves:
-
limiting road investment to bypasses (possibly in tunnels, as in Oslo) of sensitive areas, combined with traffic calming measures and other improvements, such as the provision of parks and open spaces (as in Oslo and Portland), applied to the areas which has been bypassed;
-
investing in lanes of high-occupancy vehicles, as in Amsterdam;
-
using reserved lanes and telematics to give widespread priorities over other traffic to trams and buses, as in Zurich;
-
extending pedestrian precincts and creating traffic cells, as in Gothenburg;
-
providing improved facilities for cyclists and pedestrians;
-
enforcing 30 km/h speed limits (or lower) in residential streets and other areas, as appropriate;
-
using telematics (responsive urban traffic control systems) to minimize congestion, improve air quality and facilitate pedestrian movement;
-
providing travelers with real-time information about services at all stops.
Environmental protection
Best practice involves:
-
To tighten regulation to reduce emission of gas and noise from new vehicles;
-
To introduce progressively lower fuel consumption targets for new vehicles;
-
To introduce more frequent and stringent tests for emissions from vehicle already in use;
-
To promote the use of low-polluting buses;
-
To ban/restrict road freight movement in sensitive areas at night.
Pricing mechanisms
Best practice involves:
-
To use fuel taxes, vehicle purchase taxes and annual license fees to promote the purchase and use of vehicles with low fuel consumption, as in Italy and France;
-
To use on- and off-street parking charges to balance demand and supply for road use;
-
To use toll rings, as in Oslo and Bergen, to pay for new infrastructure;
-
To make businesses which benefit from improvements to public transport contribute toward the cost of those improvements.
8.2.2 Strand 2 : Innovative Policies
Land-use management
Innovations include:
-
land-use policies designed to promote mixed uses of “urban village” and improved facilities in local centers, as in the UK’s current planning guidance;
-
new tramways threaded through existing suburban districts, with residential densities raised in the vicinity of stations and new travel attractors located near them;
-
measures to encourage development around existing transit routes and stations by the offer of more highly permitted densities to developers (density bonuses);
-
provision of network of foot and bicycle ways with priority over vehicle roads; and
-
establishment of car-free areas.
Road traffic management
Innovations include:
-
To limit urban road construction to serving new development areas and to providing opportunities to improve the quality of public transport, through the provision of extra space for bus lanes and suggested tram and bus ways;
-
To use telematics to integrate all aspects of urban transport management, to keep demand for road space in balance with supply (through advanced signal control techniques) and to provide a wide array of real-time information services for travelers;
-
To use area and city-wide traffic calming measures;
-
To enforcing speed limits using video analysis and recognition techniques and ultimately through the use of speed governors or sensors on vehicles, in order to reduce the risk posed to walkers and cyclists ;and
-
To oblige employers to introduce commuter plans as in many US cities.
Environmental protection
Innovations include:
-
To use an array of regulatory and pricing mechanism to promote the use of low-polluting fuels and low-polluting, city-friendly cars, buses and goods vehicles;
-
To set deadline for cities, tied to the receipt of national grants, to reach defined noise and air quality goals; and
-
To use telematics, regulations and engineering techniques to keep traffic levels within defined environmental limits in residential streets and urban roads.
Pricing mechanisms
Innovations include:
-
Electronic congestion pricing for city centre and inner cities and other areas where congestion, safety or air quality requires a reduction in traffic; pricing mechanisms could practically eliminate congestion and improve the quality of tram and bus services at the same time; and
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The replacement of operating subsides for transit, where appropriate, by user subside, This could be facilitated by smartcard technology.
8.2.3 Strand 3: Sustainable Development Policies
Strand 3 goes further than the other two strands in other to reduce the risk of global climatic change.
It is designed to influence lifestyles, vehicle design, locational decisions, driver behavior, choice of travel mode, and the length of car journeys. Its aim is to reduce car use, fuel consumption and emissions. All three strands need to be implemented as soon as possible, but the nature of the third strand means that only in the long term will it become fully effective.
The key to the sustainable development strand is a substantial and steadily-increasing fuel tax coupled with all the measures included in Strand 1 and 2. Strand 3 is designed to reduce vehicle-kilometers significantly over a period of two or three decades. This tax should be a part of a comprehensive taxation policy affecting all fossil fuels, so as to ensure a high level of cost-efficiency.
This is the main principle in the UN’s Framework Convention on Climate Change. The principle of cost-efficiency and comprehensive approach means that targets for reduction of CO2 emission should be decided at international level. The distribution of reductions in CO2 emissions between countries and economic sectors will depend on the varying costs of such reductions.
Sustainable urban development measures involve:
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To implement year-by-year increases in the price of fuel to conserve fuel and reduce CO2 emissions to recommended target levels. These would be set by national governments, but influenced by international bodies such as the APEC, the EU and the UN;
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To implement additional taxes on the purchase, licensing and use of vehicle to ensure that road users pay the full external costs of their journeys; and
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To ensure that the use of specialized, high-efficiency, low-weight, low-polluting urban cars, vans, lorries and buses becomes the norm in cities.
8.3 Case Study: Harmonizing Urban Land Use, Environment and Transportation System
; Land Use Planning of Taoyuan Airport City in Taiwan 2)
8.3.1 Emerging Trends of Airport City Development
In addition to telecommunication, international air transportation is a critical system to link regional economic activities nowadays. Especially, if an airport can be developed as a hub for the regional air transportation network, it will stimulate economic development of its surrounding areas.
Recognizing the importance of international airports to the future economic development, more and more countries are making efforts in the development of new airports and the expansion of existing airports. In East Asia, for example, China; Hong Kong; Japan; Korea; Singapore and Chinese Taipei, all are making tremendous investments in airport development and expansion projects. It was reported by Business Week in 1996 that 16 big airport construction projects were underway in the Asian region with a total budget of more than US$ 50 billion. These development projects will certainly bring significant impacts to the economic growth and the spatial development of global cities. However, airplane noise and accident risks to surrounding communities have caused conflicts in airport development.
It has been widely recognized that strong interaction exists between land use and transportation sectors, coordination and integration of the two sectors is thus an important task at the planning level for different spatial scales. How to plan and control the land use adjacent to major transportation nodes (ie., rail station, freeway interchange, seaport, and airport) for sustainable environment is a challenging task to spatial planners, particularly the planning and development of areas surrounding international airports. The purpose of airport city planning is to maximize the transportation function of airport and its surrounding area, while environmental conflicts are to be minimized.
As of 1997, a comprehensive land use plan for the Taoyuan airport city in Chines Taipei is prepared by the Ministry of Transportation and Communications to promote the development of CKS international airport as a regional hub of air transportation on the one hand. In the following paragraphs, the planning concepts of Taoyuan airport city will be introduced to demonstrate a way for harmonizing air transportation, land uses and environment.
From the viewpoint of services provided, an airport city is different from traditional airports in that it is an integrated area of airport service function and urban service function, while only airport services are provided in traditional airports. Three types of airports can be identified according to the service functions provided by the airports.
Compared to planning for traditional cities, airport city planning is featured in the following ways:
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Managing environmental conflicts through land use planning
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Reserving space for airport growth and development
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Improving service functions to support airport operation
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Enhancing gateway function by transportation system integration
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Expanding urban service function to release development pressure of metropolis
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Taking transportation advantage to stimulate economic development
8.3.2 Land Use Planning of Taoyuan Airport City
Land Use
The land use planning in airport cities should be to accommodate activities that are needed to enhance or support the airport. Based on the service function, industrial activities related to airport can be ground into three types:
a. Airport-dependent activity
Airport-dependent activities are the core activities for airport operation. Airports can not be effectively operated without their services, and therefore, they have to locate near enough to the airport so that certain service level can be achieved. Airport dependent activities provide services for airplanes, airport terminals, passenger service such as traveling, lodging and housing, emergency services, and services to support cargo transportation such as warehousing, distribution, airplane maintenance and food catering.
b. Airport-oriented activity
Since airport-oriented activities are to support and to enhance the airport service, they have to be located near enough to the airport to provide the second tier of transportation service and catering processing. With the support of airport orientated activities, the service function and comprehensiveness can be enhanced. Example of airport orientated activities include international convention centers, business centers, teleport, cargo distribution centers, free trade zone, business centers and industrial parks to accommodate airport related industries.
c. Airport-derived activity
These activities are attracted to the adjacent areas of the airport in order to take advantage of the airport image. They do not need to be near the airport, however, it would be better if they are located near the airport. For instance, airport or airplane related academic and research institutes, cultural, tourism and recreation parks are good examples.
Principle of Land Use Allocation
Airport city planning has to consider various factors including noise, safety, airport operation, local development, inter-modal transportation, customs processing, and nature of various activities. Both constrains on development (noise contour, building height limitation) and opportunities of development have to be analyzed in the land use planning process. For the convenience of land use allocation, land within the airport city is classified into five planning rings.
Ring 1 : airport
Ring 2 : land controlled by the airport, boundary of the airport master plan
Ring 3 : outside of airport master plan, but within the radius of 5 km.
Ring 4 : outside of airport, between the radius of 5 km and 15 km.
Ring 5 : area located between the radius of 15 km and 35 km.
With the above five rings, ideally, land uses should be allocated according to the following principle:
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Residential areas have to be located far away from the airport since residential activities are sensitive to airport noise and airplane safety. Besides, they are the obstacles most difficult to move out for the future expansion. Ideally, a minimal distance of 10 km should be maintained between houses and the airport.
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The airport authority should have more power to control the land development around the airport. Land in Ring 2 within 5 km of the airport should be reserved for future expansion space, and it would be better if they are owned by the airport authority and used by airport-dependent industries.
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In order to attract related industries to locate in the airport city, land located between 10 km and 15 km should be planned for service industries. Labor intensive industries should be located in outer ring of the airport city in order to avoid congestion. If land in this area is not planned for business use, it should be planned for low density uses (i.e. agriculture) so that land can be reserved for future development.
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Land located in ring 5 (between 15 km and 35 km) if not planned for airport related industries, should be planned as agricultural areas, green space or recreation areas.
Based on the above planning concepts, the Ministry of Transportation and Communications has prepared a Comprehensive Land Use Plan for CKS Airport Surrounding Area. Figure 1 and Figure 2 show the geographic relation of each administration area in the airport city and the land use plan proposed respectively.
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